StarTalk Radio - A Conversation with Dr. Mae Jemison (Re-release)
Episode Date: December 26, 2023How can we achieve interstellar space travel? We take a look back at when Neil deGrasse Tyson sat down with former astronaut and Principal of 100 Year Starship, Dr. Mae Jemison, to talk about our futu...re living and traveling in space.NOTE: StarTalk+ Patrons can listen to this entire episode commercial-free here: https://startalkmedia.com/show/a-conversation-with-dr-mae-jemison-re-release/Photo Credit: NASA. Subscribe to SiriusXM Podcasts+ on Apple Podcasts to listen to new episodes ad-free and a whole week early.
Transcript
Discussion (0)
Welcome to StarTalk, your place in the universe where science and pop culture collide.
StarTalk begins right now.
Welcome to StarTalk, I'm Neil deGrasse Tyson, your personal astrophysicist.
On rare occasions, I sit down to interview someone whose presence is so powerful, so entertaining, and so enlightening all at once.
And the conversation that comes out of that encounter is so inspiring that we have to depart from our usual studio format in exchange for some one-on-one time.
On just such an occasion, I sat down with former NASA astronaut, engineer, and physician Dr. May Jemison,
and that interaction moved us all at StarTalk to break format for this particular episode.
So, instead of our usual panel of in-studio expert guests
and comedians and scientists,
what follows is my uninterrupted conversation with May
from start to finish.
Dr. Mae Jemison has been to space,
but that's not the only thing
or even the most interesting thing about her.
From her early career as a medical doctor
in Africa and Cambodia, to her space shuttle mission and now her newest project, the 100-year Starship, she has literally aimed for the stars.
We talked about all of this.
So in this first part of the conversation, we get to know about May and the life that prepared her to dream bigger than most people will ever dare to dream.
So let's go to that conversation now. So May, I feel like we go like way, way back, but it's only
just way back, like to the 90s, the early 90s. I first met you at a conference where we were
advising the head of NASA on where NASA should go. And you were there and it was like, wow,
this, wow. She didn't only go into space, she's like, has thought this through.
So, and you had a whole life after going into space. I just want to say congratulations
just from what you've assembled here.
Well, it's really kind of interesting because so many times people think of themselves,
and particularly people who are in the public light, as having this single dimension.
And it's critically important to remember that there's a life before that that leads you up to the place you are,
and then you have to continue on afterwards. And, you know, so for me, everything that I did before I
ever went into space was just as important as going into space because that's what got
me there. The conference that you talked about was about, you know, where should the space
program go. And bringing that, thinking about it, I had to think about the work that I had done
before. I worked in West Africa for two and a half years as the Area Peace Corps Medical
Officer for Sierra Leone and Liberia, two of the least developed countries in the world.
I had worked in a Cambodian refugee camp. What I thought...
Wait, wait. And then you went into space.
There's more stuff before I went into space. So, so... Then you went into space there's more stuff that i would have to say that that that that
no no the reason i'm bringing this up is because
so many times people think you know you just appeared on the planet at that moment that
they can actually in that in that circumstance and you want
right it's all the things beforehand
so i do speak at this conference
i knew it was the right
first up
there's like some backstory story there there had to be
visit you would just
you would just on point everything you said
your perspective you brought to the table
uh... so that's why i'd i'd just want
i knew that
if i ever had a show i wanted you on the show
so they said that they had seen you already planned planning but they've been
at the thing you have to plan plan anyway but't that the thing? You have to plot and plan anyway. Yeah, yeah. But, you know, the thing about the whole conference, when I was thinking about it,
my idea was that space exploration has many uses.
And it will only come to fruition, we'll only know exactly how it should be used as we get more people involved.
And so it was literally because of my background of working in developing
countries
i was very excited about how you could use remote sensing in developing
countries
how you could use satellite remote sensing how you could use
satellite telecommunications
to be able to get to places where telephone lines don't reach
and that's what i was very focused and i just left nasa and i was
was thinking about
how do i use this incredible knowledge and blend it with other things. Now, I talk about medicine,
but I'm really an engineer at heart, right? Because I did chemical engineering as an undergraduate
and also majored in African studies. So you can sort of see how those pieces blend together
and how you think about things and how you think through life. You put the pieces together. So after medical
school I really wanted to work in a developing country for a long period of time because
you get to learn so much about yourself. So sometimes people think that you know when
you go out and you work in these places you're doing all this Good Samaritan stuff and aren't
you a good guy. But for me it's feeling something that makes me feel good.
Okay, so you did it for completely selfish reasons.
Yeah, I mean, let's look at the things. We usually do things, no, no, no, no, no,
you don't laugh. I think we usually do things for selfish reasons, but that doesn't mean that that's bad.
And when I say selfish, I mean there's something inside of you
that you're filling by doing these things.
So sometimes when we look at selflessness,
because I believe it's important that other people in the world
share in the bounty of the planet.
That fits with my internal compass.
And I'm going to feel better when my internal compass is pointing, you know, true north
through south, whatever it is, whatever direction you want to go.
Pointing true.
That's pointing true.
So, growing up, K through 12, where were you?
I grew up on the south side of Chicago.
South side of Chicago.
I was born in Alabama.
We moved up to Chicago when I was a little, when I was, before I started school.
So I grew up on the south side of Chicago.
I went to Chicago public schools.
And all the-
Public schools all the way.
Okay.
There you go.
And the whole time that I was there there i was always involved in science projects
but also danced all the time i wanted to be a professional dance i love dance
i took lots of art classes
so i was one of the so glad you must have twisted your ankle at some point
and didn't continue because then we wouldn't have to
no astronaut jefferson i didn't twist my ankle i had to make a choice
so when i was graduating from college
literally this is true i had to make a choice between becoming coming So when I was graduating from college, literally, this is true,
I had to make a choice between coming to New York City to try to become a professional dancer
or to go to medical school.
And, you know, I always say my mother helped me solve that, you know,
because she said you can always dance if you're a doctor,
but you can't necessarily doctor if you're a dancer.
So when I came to New York City, I took classes
at Alvin Ailey while going to medical school because it sort of fulfilled that energy need
that I had for the creativity where you just put yourself into things just totally and
completely physically and all that energy. So it was a choice. We have to make choices.
Sometimes people say you can do everything. You can do a lot of stuff, but you can't do everything.
Let's get real.
Sometimes you have to make choices,
and those choices exclude some other things you might like to do.
Remind me, what shuttle missions were you on?
I flew once. I flew on Space Lab J.
It was done with a Japanese space agency,
and it was a laboratory mission, so we carried
up a laboratory in the back of the space shuttle.
And which space shuttle mission was that?
It was STS-47, but it was actually the 50th flight of the space shuttle.
So they were numbered in order of when they were put on the manifest.
But then if the flight slipped or anything happened, then you may later and you kept to keep the number so STS 47 went with that
payload and everything we flew on Endeavor right so it was it was a it was
a great mission I think a Devereux now lives in Los Angeles is that endeavor
lives in LA yeah yeah so in LA do do you tear up when you see it on
display at the California Science Center? So I went to the California Science
Center when they were actually unveiling it and yeah it's a it's a strange
feeling because it's sort of it's sort of saying goodbye to an era, but knowing that we have more to do.
And so it's really sort of this bittersweet, very poignant kind of feeling.
So it was a, so you know, just sort of being around that as a, you know, it takes you back
for a second, right?
But it also I think wants to move us forward.
And I think that's the issue.
How do we move forward on this?
I had strong views on this.
So many people were tearing up when the shuttle mission ended.
And I said, you're not tearing up because the shuttle mission is ending.
You're tearing up, in fact, because we don't have a really well-developed plan to follow this did anybody tear up when we retired gemini no because the saturn the mighty saturn
five was like sitting right next to where that's where we're going next right mothball this let's
keep going so that's why i think people teared up because it wasn't something right there well i mean i i mean i teared up or i don't i don't tear up okay sorry but uh i was
you know i don't tear up all right but no but i think i think you're very
i think you're very i think you're spot on because the the the problem was is we were doing this in like, well, we're just going to stop doing it because we don't have enough money.
And the shuttles actually were – they were on the path to retirement in 2004.
And most people don't recognize that it was right after the Columbia accident and that declaration that we're going to go to the moon, but we're
going to do it at the same cost.
So it meant that the shuttle had to retire and when they started mothballing that.
And reallocate those monies, right?
Reallocate the monies and even station was going to go away, right, earlier on.
The space station, yeah?
Space station.
Yeah.
So basically we sort of like said, well, we'll try to figure out something and we won't make
a commitment to it. So. How won't make a commitment to it.
How's that?
Compare that to we'll put a man on the moon, return him to the earth before the decade is out.
We'll say we got some money.
We'll figure it out as we go along.
And here's the thing.
Very different times. it when I joined the astronaut program because I figured when I was a little girl, by the
time I got old enough to be an astronaut, I'd be hanging out at least on Mars.
At least.
At least on Mars.
And I wouldn't have had to be a crew member.
I could just be a scientist working on stuff.
And so the reason we're not on Mars now has nothing to do, from my perspective, with the engineering.
It has more to do with the public commitment.
And that's the reason why we have to bring all those pieces and so many different people in and include them in things.
It was a lack of public commitment as people didn't see why it made a difference.
I was a little girl.
I grew up on the south side of Chicago.
I'm running around telling grown folks why it was important for us to be in space.
No, I'm serious.
I was running around telling grown people, and you see we could do this on the moon,
we could do that and stuff.
But so many folks were left out.
When you look at the space program, there were lots of people involved, but publicly,
when you viewed it, a lot of people felt like
they didn't belong.
I grew up in Woodlawn, the south side of Chicago, African-American community.
So many people, they were proud.
They thought it was cool.
But what did it have to do with us?
Right?
And that's the piece that's really important.
How do we make sure people know that when they pick up their smartphone and they have their mapping services on it,
that here's this GPS, Global Positioning Satellite Systems, right, that they have a space receiver in their hand.
That's the job we have to do.
That's how you get public commitment, when folks understand
that this is not just for this peculiar group of folks, right? It's much deeper than that.
We've got to wrap up this segment of StarTalk. Coming back, more of my one-on-one conversation
with physician, engineer, and former NASA astronaut, Dr. Mae Jemison. We'll see you in a moment.
Welcome back to Star Talk.
You've been following my one-on-one conversation with former astronaut Dr. Mae Jemison.
After she went into space, she continued to aim for the stars with her project 100-Year Starship. This is an inclusive, multidisciplinary
project to get humans, not robots, but living, breathing, squishy humans to another star system
within 100 years. It's like a moonshot, but a whole lot harder. May and I discussed some of
the challenges that we humans must tackle before we plan for such a launch date.
And these include not only the obvious demands on energy and technology and propulsion, but also medical and anthropological needs.
So let's get back to my conversation with May.
100-year Starship is about making sure we have the capability for human travel beyond our solar system to another star within 100 years.
It's about pursuing an extraordinary tomorrow in order to create a better world today.
It's by doing those things that we don't know how to do. It's about using interstellar
travel as a platform to push radical leaps in knowledge, technology, and public commitment.
Dr. May, we haven't been out of low Earth orbit since 1972.
And there's a problem.
And you're talking about traveling between the stars
so here's the deal when you look at interstellar travel we're not looking at a specific launch day
we're talking about how do you make the capabilities exist? No one organization can do it, but can we create and help to form in an environment
where people try to do bigger things?
So this is not rocket architecture, is it?
It includes rocket architecture.
It includes human health and human behavior.
It includes sustainability.
It includes civilization design.
It includes how do you get financial commitment to something that you may not see the results
of for many years.
So you've got medicine, economics, engineering, biology.
Behavior.
Human psychology.
Human governance.
So our motto is we pursue an extraordinary tomorrow in order to create a
better world today. By doing things that no one thinks you can do, we know how it changes things.
That's what the moonshot did for our country and the world.
Absolutely. Just think about it. In 1901, when H.G. Rawls wrote First Man and the Moon,
In 1901, when H.G. Wells wrote First Man and the Moon, it was less than 70 years later that we actually had a human on the moon.
And back then, we knew so little about anything.
So our technological arc right now is much steeper than it was back then.
We know a lot more.
So it's not unreasonable to imagine that in 100 hundred years we might be able to have the capabilities. Now I'm not talking about Star
Trek and warp drive and bending space time and all of that kind of stuff.
Maybe, maybe.
Might be. I mean I may be limiting us, but we may be able to have the capabilities
to think about it. And 100 Year Starship is about providing a platform to think outside of those ways
we usually do stuff. Right now, staying within our solar system, we can do a lot of incremental
kinds of technology to get there. But getting to another star requires that you open things
up.
And now we've got Proxima Centauri b, a little planet going around the nearest star
to the
sun. So that helps you out, I think.
That helps out. That helps out. But just think about the platform this provides. And some
people say take humans out of it. But no, leave humans in because that pushes the platform.
Imagine what you have to do with sustainability, right? It's not just the rocket engines. We'll talk about the rocket
engines. But it's sustainability. Because if you get to going fast enough that you could
get there in 100 years or 50 years, you're not going to slow down to pick stuff up. You're
going to have to carry everything with you.
There's no filling stations.
No filling stations, no grocery stores, no stop offs.
No Quick Mart, no nothing.
No, uh-uh. You're going to take it with you. No grocery stores, no stop offs. No quick mart, no nothing. No, uh-uh.
You're going to take it with you.
No Whole Foods?
No.
What we're going to do...
No.
So here's the thing.
So you can get...
And once you get there, you're probably not coming back.
So everything you take has to be sustainable, which means we have to understand things like
the microbiome in the soil, which is what fixes nitrogen and other things for plants to grow
because we're gonna have to grow on food we're not gonna be able to you know
store enough food you can't freeze dry and all that kind of stuff you're gonna
have to have a whole bunch of people on your silos on your trip and it doesn't
make any sense right so you're gonna have to because every silo you bring
every extra packet you bring is more energy that's needed in order to get you to 0.1 light speed, right?
So think about it.
What does that mean?
It means we have to make tremendous strides in understanding sustainability in terms of our own bodies, how we digest things.
Because people's microbial system inside, it's, you know, your body has to carry these microbes with it.
And they're essential to our health. What did I hear recently that, is it, 10, 20, 30 percent of our body mass
are other living organisms? Yeah. Is that, is that... Isn't that neat? It year but that's me so that it means that i gotta be me you know you are going to
have buddies to help you out i can't be micro look at you have you have billions
of bodies to help you out
right gotta be me you're being here but you have buddies help you out
said it talks about how we're in this
this uh... balance with our environment
but we have to understand that. So the whole thing
around the micro sustainability materials, right? Clothing. You can't right now when
we go up into space, people carry the clothing with you. We had a textile and design professor
called Espelon who came in and said, how many people in this plenary session can sew? We
got a few hands up. He said, the rest of you all can't go because we're going to have to make our own clothes
because we're going to have to look at material and ruggedness.
You're not going to be able to carry a box of cars of clothing for people.
You're going to have to be able to reuse and recycle the materials.
So it changes our relationship to textiles.
Everything that we do starts to change.
Space pilgrims. Pilgrims had to do everything themselves.
Pilgrims had to do everything themselves. There was no quick mart.
But everybody, I mean our history of every society.
They got help from the natives, right?
But the natives were here doing stuff for themselves too.
For themselves, exactly.
Yeah, yeah, yeah, yeah, and all over the world.
But you see, we had this wonderful planet that supplies us with so many things.
So now we're going to have to understand enough about it to be able to recreate some of that.
So it helps our understanding of our own planet.
Let's just talk about energy, right?
So how fast can you go?
Currently, I mean I did the math on this you go go ahead
You take the fastest thing we've ever launched and doesn't even have people on it
All right, and you aim it towards Alpha Centauri. It would take the Alpha Centauri system
It would take you know, fifty sixty thousand. Somewhat longer than a human lifespan.
It's somewhat longer than we've been able to cave paint well, even.
Exactly.
That's longer than since we've been cave painting.
So we have to go much faster,
which means that we have to generate these tremendous amounts of energy,
store them safely, and control them.
But that means you can't do chemical.
Chemical energy will not do it.
Chemical energy is out.
All that fire and flame that comes up under the shuttle
or the origin.
It looks good.
It looks good, but it's not going to do it.
So we're going to have to do it.
Just to be clear, so chemical energy are molecules
that have energy stored in them.
You break apart the molecule, or you bring together atoms,
and energy is released.
Exactly.
And then you aim that in a way so that you thrust forward.
Exactly.
Okay.
So that's everything you see.
But if we were going to try to generate the kinds of energy that we would need to get to another star in 50 years or something.
So this is a tenth the speed of light.
A tenth the speed of light.
At four light years away, it's a 40-year trip.
Okay.
Okay.
light years away. It's a 40-year trip. Okay. So you're going to have to, we're going to have to do at minimum fission safely, right, which powers atomic plants and things like that where you
break atoms apart. Or you're going to have to do fusion, which is what runs the sun, right,
which the sun generates energy, which we don't really know how to do well. Or we're going to
have to use antimatter. Each one of these are orders of magnitude more energy.
So if we started to be able to do even a little of that,
look how it would change life here on Earth.
If we were able to do it safely and story.
Access to energy.
Access to energy, which is one of the things that's fundamental
about people's quality of life.
It's one of the things that the futurists got wrong
in the 1940s, 50s, and early 60s.
They're imagining the year 2000, and everyone is in a flying car and motorized sidewalks,
and they were thinking that somehow energy would be unlimited, because all that takes energy.
But they got that wrong. Energy is rather finite, but information is unlimited.
And so our lives have been changed by access to information, the whole IT universe. So I'm
intrigued by that. So you're going to need a future that's kind of like the one people dreamt
of, unlimited access to energy. We're going to need a future with a lot more energy, right?
But that's going to be needed anyway.
Information will not take the place of some fundamental physical properties.
And this is where we have to balance things out.
And I think that we've gotten a little confused as we start to look at IT, right, information technology,
and assuming it's going to solve everything. Because there's some fundamental physical things that living, breathing beings have to do.
And that is they require energy.
So whether it's being able to cool vaccines to deliver in places, to keep food safe, to
move from location to location.
Maybe you can decrease that with IT.
But we need energy, and it's something we need to put money and effort and research in.
And that's what, again, 100-Year Starship is about.
How do we start to push things forward?
One of the things that we have to think about as well is even in health. That's the reason why I bring humans in.
We work on something that we're calling crucibles.
This is forging thought into reality.
How do we jumpstart new disciplines?
And these crucibles are subject matter experts working on a tough problem that you need for
interstellar travel.
One of those problems was how do you create a healthcare infrastructure that travels with
you?
Biology evolves in space, and it's going to evolve over 50 years, right, and when you
get someplace.
Right now, our healthcare system, our healthcare infrastructure depends on clinical trials,
pharmaceutical development
looking at the epidemiology of what's happening around the world
and it
it sits in lots of different places
and you bring in folks you do things and it's up
big old system
but you can't carry that with you nor are you going to be able to radio back
to earth or get supplies
so how do you create some supply There's no supply ship coming at you.
There's no supply ships.
It would have to catch up with you, right?
So how do you do that?
And if it could do that, why not get on that ship and get there faster?
Well, that's something called the weight equation.
But let's do this.
So how do you do it?
Have you ever noticed physicists, they always want to jump out of the bio stuff.
They want to jump into the energy and how do you go faster.
I'm sorry. I'm guilty about that, too.
Yeah, I know. So I'm going to keep you honest.
That's good.
So if we did something called Virtual Human, a crucible, and it was done in Gross, Austria, in a castle.
You know, you've got to do it right.
But it was being done with a number of different people.
Right? You know, you got to do it right. But it was being done with a number of different people.
And we're looking at how do you wholly model human physiology and health by being able to do a model that includes epidemiology, behavior, the physiology and stuff, because that's the kind of infrastructure system that you'll need to carry with you but how you do this when i've seen the thickness of the physicians desk reference
okay the pb r is this thick
is filled with prescribable medicines
you're not going to have everyone is medicines on the ship
that's exactly the point and the medicines will evolve
so you need to be able to figure out a way to generate your own medicines
you know those microbes that you're so adverse to that are on your
skin?
I'll take them. That's fine. If I've got to live with them.
Well, some of them become bad actors when they go into space.
Oh, is that right?
Some of them become more pathogenic.
Wow.
When you go into space.
They get pissed off. Where'd you send me?
So there's this evolution. Your body, you know, there are a lot of things that may happen.
So we need to be able to understand epidemiologically what's going to happen.
So your body's flora changes. It may change a little bit and we don't know exactly what's
going to happen. But so this is the reason why you need to be able to do your own investigations.
You need to be able to do your own infrastructure. What's going to happen when you go there?
You know, things happen to your immune system, but there's lots of stuff that go it's really good stuff but there are lots of things that
happen very exciting but how do you understand that how do you put it
together and it's by starting to being able to model it right and being able to
carry that model with you so you're're going to have to have a way of really understanding, like, yes, the information
that's in the PDR, but the PDR is just the, I mean, that's like just a star chart, right?
Right?
That's all that is.
You actually have to go and understand all the stuff that's back behind the stars, right?
So you have to understand all the numerous reactions and the, you know, pharmacokinetics
and the kinetics of enzymes and all of these
other things that go on. And then you have to understand how one's behavior affects your
body and your physiology. You have to understand. I mean, there's so many things. That's what
part the health infrastructure is. So what we're doing with Virtual Human is bringing
in people in genomics, proteomics, people who do tissue cell culture growth, gaming, people in gaming, quantum computing,
and all of those things that bring them together to start to think about how would you create that model.
That would not have happened if we didn't say, let's think about going interstellar.
Of course not.
And let's bring other people in.
It's a non-thought without that goal.
Right now we have to close out this part of the show,
but stick around for a final segment
when we wrap up my conversation with former NASA astronaut Dr.
Mae Jemison.
We'll be right back.
Welcome back to StarTalk.
We've been following my conversation with Dr. Mae Jemison.
She's a former NASA astronaut.
She's a physician and engineer, and she's also the founder of 100-Year Starship.
We've been discussing the dreams and challenges of taking humans interstellar.
Let's get back to that conversation now.
interstellar. Let's get back to the conversation now. So 100 Year Starship, we proposed an inclusive audacious journey to transform life here on earth and
beyond. And I was fortunate enough to lead the team that won the modest seed
funding from DARPA. DARPA? DARPA. Cool. The modest seed funding from DARPA. And we- Darpa? DARPA. Cool.
The Modest Seed funding from DARPA to create this independent organization. But
you notice the first word is inclusive? Because we have to include not just over gender, ethnicity
and geography, but across disciplines. And so we brought in people who had not been involved with space exploration,
the amateurs and the experts. Because there's so much expertise out in the world, there's
so much knowledge out in the world that may not have been applied to space exploration,
that if you give people permission to be involved, if you give them a way to participate, tremendous
things happen. Plus, you know and I know that if space is the carrot, you can attract some of the brightest
minds in the landscape.
Absolutely. We found that there were so many people who wanted to be involved who just
hadn't had a way to be involved. And in fact, I'll have to get you a t-shirt that says,
space isn't just for rocket scientists and billionaires.
That's our other motto.
Because by bringing in other people,
they bring these perspectives in.
So when we opened it up to life scientists
who were never involved with space exploration,
there was this little cabal that occurred
where they just sort of took over,
and out of it came virtual human.
Because they said, you know, the deal is the infrastructure.
It's not about space countermeasures
and, you know, lower body negative pressure
and all these things where folks try to do stuff.
It's really about how do you create a system
that will evolve over time.
And that's where it started from.
And so we're working to continue to move those things forward.
We're looking at things around design as well.
And even how do you become an advanced civilization?
You know, there's this thing called the Kordeshov scale on civilizations, and it's all around energy.
And that's all when physicists have been doing the work, they say it's about energy.
But you know there are people called anthropologists, right, and psychologists and historians and stuff who study civilizations and how they evolve.
So I want to get them into that because using all the energy of your star may not be the marker of an advanced civilization.
Draining your planet of all of its energy may not be the marker of an advanced civilization or a civilization that can't hang around for a long period of time.
So what we want to do is to bring other people in and really have this transdisciplinary look,
letting other people be involved.
Because that's how you're going to get these radical leaps in ideas and design.
That's how you do it.
So I guess I had just not fully understood the whole mission statement.
Because I'm imagining, because what else could you expect someone to think all right here's Mae Jemison she's been in space and now she wants to go to the
stars that's just kind of weird okay we'll let her okay fine but what what you're doing is
you're not building a spaceship you are saying here are the challenges that such a mission confronts
wouldn't it be interesting to solve those as a thought experiment as or in
real really solve them and look at how it applies back to the rest of our life
and so you would have a moonshot without actually going to the moon well you know
yes let's be clear we want to do it with the stars because if you pretend that it's not for the stars
then people lose interest in some ways but it's about capabilities we can't set up a
launch date until you know some things like i've had people sort of say well what's the
technology roadmap i don't know because we don't know what the hell the technologies
have to be i mean let's be serious We could have a capabilities map, right, which we know certain things have to exist in order to do that trip.
And so let's work on the capabilities. We'll reassess in 10 years or 20 years or 30 years,
and then you might be able to start this other thing. But it's really about how do you transform
life here on Earth? How do you use this as a platform to push?
Because, again, we would be on the moon.
You and I would be sitting having this conversation in a lunar base.
Our Mars, right?
If there had been commitment and people understood how this could affect our world.
But it's really, again, about the capabilities, creating a capabilities map and engaging people.
No one organization can do all of this.
So if we could help to start to change the environment.
You know, the first thing I had to do
was to get the woo-woo out of it.
That's a technical term, get the woo-woo out of it.
The woo-woo.
Right.
You know what it is, like you said,
made us want to go to the stars.
OK, that's kind of weird.
That's the woo-woo, right? go to the stars, okay, that's kind of weird, that's the woo woo, right?
So to really start to think why might this be
a reasonable proposition?
But my task has really been to get other people involved
to change the way people think about things.
We do things like we have a Canopus Award
for excellence in interstellar writing.
So this is science fiction?
It's science fiction and nonfiction.
So how you tell the story is really important.
How do you communicate the story?
Canopus is one of the brightest stars in the sky,
visible mostly from the southern hemisphere.
It was a navigational star for so many civilizations,
including NASA, I think.
It's a navigational star.
It was for people on land, right,
along with the North Star.
And it's the star that's used for deep space probes.
Yes.
Right, along with the sun.
And the other thing about Canopus,
it was used for planting in the cradle of humans, right,
in the Great Rift Valley.
And people use it for figuring out when planting seasons started.
And the interesting part, it is the star about which the spice planet orbits.
In Dune, Arrakis.
My gosh, I had forgotten that.
So.
The spice planet in the novel Dune.
In the novel Dune.
So what we wanted to do when we chose that one is this incredible connection from our
past to potential futures because it really is about this longevity.
When we look at all of this, it's really about who we can be in getting people involved,
giving them a path forward.
That's what I believe I can help uniquely with just from my perspective and my background.
I'm comfortable with other folks coming in.
I like cats.
I have a lot of cats at home.
So I don't mind herding cats because I'm good at it.
You had practice. I had practice. I have a lot of cats at home, so I don't mind herding cats because I'm good at it. You've had practice. I have practice. I have practice. Herding and feeding cats. Herding
and feeding cats is dangerous, right? I have scars from it, but it's a very worthwhile venture.
But really, 100-Year Starship is about how do we really push for something better? How do we really push for something better?
How do we really do something that we don't know how to do?
I figured out, if you need more DARPA money,
you say, some of our top researchers established that en route to the nearest star,
the aliens are going to want to intercept our food supply.
So we need weapons to take out the aliens.
Then they'll just give you more money
see that's how you do that you don't have to tell anybody but keep that one
i have no idea what to do with that and i'm gonna pretend i was not in the room
i was not in the room i had nothing to do you gotta protect the starship enterprise and star
trek it's it's on a peaceful mission to explore new worlds. But it's got photon torpedoes.
It's got, it can kick some butt if it has to. Well, I mean, I think. That's just not
its point. But, but, but there. I'm just saying. The defense budget is like a gazillion dollars.
You get this much of it and just keep, keep the engineering going. That's what I'm saying.
Well, I mean, there, there, you're right. Just say thank you.
That's what I'm saying.
Well, I mean, you're right.
Just say thank you.
You're welcome.
You're very good.
I don't know.
I'm going to extricate myself out of that. Out of that way.
But, you know, it's this whole thing that we have to look at about when people talk about science.
They so many times see it as something that's
outside of them, that it doesn't have anything to do with their world. And yet so much of
our world, we're looking for how do we get out of these difficult situations, just assuming
that science and tech is going to take us out of it. But it's not. It depends on who's
involved. And if I can't do anything else, I should be able to bring people and get them involved. When you look
at, I do a lot of work with our own science literacy. I started international science
camps when I first came out of NASA. That was the first thing I did, was start an international
science camp called The Earth We Share. Why? Because I believe science literacy is vital.
Science literacy is not becoming the next professional scientist.
It's about being able to read an article in a newspaper or magazine and figure out what it has to do with it.
And knowing how to vote relative to those issues.
Being able to vote.
We ask people to vote for all kinds of things, right, that have science as a basis for it, right?
We need to be able to do that.
I tell people, you know, you want your hairdresser to know a little pH.
Guys don't get it, but all the women do.
You want your hairdresser to know about pH acid-base balance as they're putting the colors,
the perms, the relaxers, and all those things in your hair.
We need...
Yeah, I've never had that conversation with my barber.
I can tell you that right now.
But it's true, right?
But you also want folks who are working in their gardens
when they're sort of drenching everything with the insecticides to understand stuff.
When we put statistics about folks' health care, right,
and, oh, you ought to do this,
and you need to be your own health advocate.
If you don't have any numeracy around what these statistics mean
and how to interpret them,
how in the world are you going to be an advocate for your own health care?
You're disenfranchised. You've disenfranchised yourself.
Right. You've disempowered yourself.
And that's one of the issues that's really important.
How do we get more people involved? and people also have different perspectives when they
come in you ask different questions depending on what you what you've the
experiences you've had so well you're living example of that I want to tell
you one other reason why interstellar. I love Mars.
Nobody doesn't love Mars.
Love Mars.
But think about Mars and the generations that are going to be working on these things.
Even since we were kids, we've had something on Mars.
We've seen Mars close up, right?
Everybody who, most of the people who are alive today were born after we landed on the moon.
It's no big whoop. You know, while we was like, ooh, the moon shot, you know, ooh, that we went to the moon.
A lot of, you know, when I talk to college students, they say, yeah, yeah, that's cool.
It would be like me saying, you know, they're airplanes when I was a little kid.
People would think, yeah, they're, you know, airplanes. We was a little kid you know that having had a you know everybody had jets yet but like that like that that the
john denver song
i'm leaving on a jet plane
why'd you have to specify that
but that plane because any other plane
because they were big deal at the time right so big big jets but for us as a
little kids as i as a plane and you know why are you thrilled about it
so that idea that
the moon is something too far
art are that the mars is really got a push we've had stuff roving around on
mars is most people were born right now close
we did samples my kids to accept is not the small
it's not really the next frontier
it's not the next frontier
even going we've had you know we saw the pictures of saturn right? Remember when the first sign of Saturn's ring, Saturn's ring.
Close up.
They've seen this, like, that's just like a regular old thing.
It's just a thing.
That's just a thing.
Yeah, just Google it.
But going outside of our solar system, doing something that we can't do, that's what grabs
you. You know, I would go to Mars in a heartbeat, right?
I'm like, ah.
But it's not the most difficult thing
that we can think of doing.
OK, time for the final part of the show.
Dr. Mae Jemison had a question for me
about my experience as the director of New York City's Hayden Planetarium.
And we chatted about why there's no substitute for hands-on learning and why you probably still remember all your elementary school field trips.
Check it out.
is as the director of the Hayden Planetarium, what do you consider some of the big challenges
in terms of public engagement?
And what kind of a platform does it give you to impact,
say, for example, students in New York City
and their parents?
That's a great question.
Oh my gosh.
Great question.
OK, you ready?
As a museum, what would be true for any museum? We're competing with high-value, high-quality video media that you would have access to at home, on your computer, on your TV screen.
on your TV screen. And so the museum experience has to continually be something that absorbs your entire mind, body, and soul. Viscerally. Viscerally. So you walk in, oh my gosh,
there's a meteorite, I can touch it. What's this behind me? What's this above me? And you engage all of your senses simultaneously
so that that kind of experience calls to you away
from the TV screen or from your device.
It's not virtual reality.
It's reality.
It's reality.
And so I think it's a challenge that museums should rise to.
Not acquiesce to, rise to.
To create an unforgettable experience for anyone who visits.
No matter the age.
And I look at kids, second graders come in, whole school groups come in, and I just watch
them and I say, yeah, that was me when I was a kid. Okay, so we got, we're still at it. We still have this.
And it also remains true. Research and education has shown that we will remember school trips
from elementary school. Research and education has shown that we will remember trips taken
in elementary school long into adulthood.
Don't you remember school trips?
Oh, I mean, school trips are fascinating.
Every one of them.
And so what is it?
You're not looking at a textbook.
You're not listening to a lecture.
You are experiencing something.
Experiential education.
There it is.
That's what I always worked on, experiential education.
If a museum can't do that, then get out of the business.
The best way to teach science is hands-on, is experience, by touching and feeling things and by watching it grow, right?
And that's what so—I remember my trips to museums.
I grew up in Chicago, so I was at the Museum of Science and Industry, Natural History Museum, the Planetarium and all of that.
And, you know, it was just like, ooh.
And even when I was an astronaut, I went to Chicago.
How many people get to say that?
Even back when I was an astronaut.
That's just a cool sentence.
I just want to pause and reflect on that sentence just for a moment.
Okay, continue.
I went to the Planetarium in Chicago.
The Adler Planetarium. The Adler Planetarium. The first one in the United States. Okay, continue. I went to the planetarium in Chicago.
The Adler Planetarium.
The Adler Planetarium.
The first one in the United States.
And they had this exhibit, this hall where you went into, and they said it was,
I can't remember how they were, the visual field you would have when you were close.
I can't remember if it was like you were a million miles from the sun
and how it would just fill up the entire view. I don't remember
exact distance, but they had mirrors and different things. And so, I mean, I was an astronaut.
I'm cool, right? I got it going on. It was something that just sort of like touched me
and said, oh, my God.
Just to be clear, a million miles from the sun is only as far away from the sun as the
sun is large. So, you know, the sun is like about 900,000 miles across.
So if you're a million miles from the sun, the sun is half your field of view.
It fills up everything.
Yeah.
Oh, they didn't tell you that you would vaporize instantly.
They left that part out.
Well, no, no.
Ignoring that complication.
No, no, no, no, no, no.
We actually have special shields.
Okay.
We have special shields, right?
We're good.
But it was just that whole visceral feeling
that you can still be moved. Or when I go outside at night, like in the cities, it's so sad because
we don't see the stars the same way. When I was a little girl growing up in Chicago,
I could see the stars. We don't see them the same way. But I remember being in South Africa
and stopped and you looked up at the stars out and you see the Milky Way and everything.
It's just like, all right.
And I get that same feeling from, you know, being under the ocean or looking at a beautiful flower close up.
So not virtual reality, reality.
Absolutely.
It's time to wrap up this episode of StarTalk.
And I hope you enjoyed listening to this conversation with the one and the only Dr. Mae Jemison.
If any of her contagious energy, passion, and audacity came through on this podcast, then the world will be better off for it.
off for it. For me, when I think of the people who shake and move the world, deep down within them,
they're dreamers. But they don't dream things that have no connection to reality. They're tap roots there. They're tap roots in what is possible, but also branches that reach for what is yet to be
discovered, for what is yet to be imagined by anyone before.
It's kind of what genius is, really.
It's seeing what everyone else sees,
but thinking what no one else has thought.
You've been listening to StarTalk Radio,
and I've been your host, Neil deGrasse Tyson,
your personal astrophysicist.
And as always, I bid you to keep looking.