StarTalk Radio - StarTalk Live! Citizen Science from San Francisco (Part 1)
Episode Date: July 21, 2017Host Bill Nye, co-host Eugene Mirman, space activist Ariel Waldman, SF Sketchfest co-founder Janet Varney, and comedian Claudia O’Doherty team up to talk about citizen science, space innovations and... how we hack our way to the stars. Recorded live.NOTE: StarTalk All-Access subscribers can watch or listen to this entire episode commercial-free. Find out more at https://www.startalkradio.net/startalk-all-access/ Subscribe to SiriusXM Podcasts+ on Apple Podcasts to listen to new episodes ad-free and a whole week early.
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Welcome to StarTalk, your place in the universe where science and pop culture collide.
StarTalk begins right now.
Hello, San Francisco! Welcome to the 16th annual San Francisco Sketch Fest, presented by Audible!
Thank you.
Yeah, check out my show on Audible. Thank you. Yeah, check out my show on Audible. Okay, it is now my great
pleasure to bring out your host, one of America's and the world's great science communicators
and educators, ladies and gentlemen, Bill Nye the Science Guy!
Ladies and gentlemen, Bill Nye the Science Guy!
Eugene! Guy Hunt! Yes! Greetings!
Woo! Whoa, yes! Yes!
Oh, man! Oh, wow, wow! I love you guys!
Whoa! Yes. Yes. Wow. Welcome, welcome, welcome to 16th Sketch Fest. Yeah. Wow. Are
my arms tired? Wait. No, we have a fantastic show tonight. We have a fantastic show, so
we'll do three segments, each more brilliant than the last, and then we'll have questions and answers at the end.
So if you have brilliant questions that occur to you during this exciting evening,
there will be microphones up front at the end. But now, people, it's time to introduce our
amazing panel. First of all, to my right, Eugene. Okay, wait.
No, Eugene's got it going on.
Did they already go on about how great you are?
And he's Gene on Bob's Burger.
And his audio show, Hold On, is available on Audible.
Yeah.
Turn it up loud.
Yeah.
Now, now, now, enough with this exciting thing. We'll start with a uh we have a big treat for you is anybody from down under anybody from australia
there you go and so is claudia o'doherty give it up she is on the netflix's love show
here she is it's three in the afternoon for her tomorrow it's true
Claudia welcome thank you Bill
then the woman who started this
sketching of festing
who's on FX's You're the
Worst and IFC's
Stand Against Evil
here's Janet Varney
yes blow it up
blow it up, blow it up. And then, you know, StarTalk has a science theme, so we're going to have a whole science theme tonight from a woman who is a space innovator, a space explorer, a citizen who engages all of us in the joy of space
exploration, Ariel Waldman. Please come out. Welcome, welcome, welcome to StarTalk.
Thank you.
We're going to have the times of our lives as is. Welcome, welcome. How about this theater,
you guys? Isn't it gorgeous?
Beautiful. My goodness, my goodness. So let's get started. Welcome to Star Talk. I'm your guest hosting
guy, Bill Nye, and I'm very happy to be here. And we'll start, Ariel, we can start with
you, right? Among the many things you're involved in is hacking our way to the future.
Exactly.
Now, I am of a certain age, and when I think of hacking, I think of trouble.
I think of interactions that are stressful.
But you're talking about creating things, right?
Yeah, yeah.
No, hacking can be good trouble.
You know, hacking is really about modifying things or breaking into things and using them for a purpose they weren't originally intended for.
And you can do that in a good way or you can do that in a bad way.
So we're not exactly talking about hacking into your email tonight here, Bill.
There's not that much in there.
We'll be the judge of that.
And, you know, I'm a germaphobe.
Sorry, Claudia, it's a local reference.
All right.
Thank you.
So you encourage people to modify things for the sake of exploring space?
Yeah.
Hacking space exploration is really about creating and prototyping new things,
things that are maybe not very elegant but might be very clever
and new ways of doing things that haven't been considered before,
a lot of times through multidisciplinary collaboration.
Like disguising yourself as a space suitcase and stowing away on a shuttle?
That would actually be very clever, but not very elegant.
So, yes.
Oh, yeah.
You're on the council of the NASA's innovative...
Advanced Concepts.
Advanced...
NIAC.
Yeah.
And so, how did you get that gig?
That sounds cool.
Yeah. It came through a kind of weird
way. I mean, through my own experience getting the career that I have. Okay, what's your career?
Yeah, I'm a space activist of sorts. Of sorts. Of sorts, of sorts. You know, a lot of what I work on
is about making
space exploration
accessible to everyone
and getting scientists
to realize
how they can collaborate
with people
outside of their discipline
to create better things.
Is that like No Man's Sky?
My mom plays No Man's Sky.
Is that what that is?
Maybe not exactly.
Okay, cool.
Yeah. But, you know, so I came from a completely non-science background,
and I unexpectedly stumbled into a job at NASA one day, and now.
Okay.
The Buzz Aldrin story.
That's right.
I don't know why I'm not relatable.
So you're walking down the street, or maybe you are hovercrafting down the street,
and you thought, cool, I want to get a job at NASA.
What did you do? You fired off an email.
Yeah, what happened was I was watching this documentary called When We Left Earth,
and it was about NASA during the early days trying to figure out how to send people into space.
And the thing that I found so inspiring about this documentary was the fact that all the
mission control people they were interviewing were talking about how they didn't know anything
about rockets or orbits or spacecrafts.
Just like nowadays.
But it was...
Well, you know, but so it's like I was watching that and I was like, well, I don't know anything
about space exploration and I want to work at NASA.
This is literally how we got the president.
Oh, no.
I'm a little more humble.
But so I got inspired by this.
And I decided to send someone at NASA an email saying I was a huge fan of what they were doing,
and if they ever needed someone like me, that I was around.
And I ended up getting a job at NASA from that email.
Whom did you email?
Or you'd have to kill?
Info at NASA.USA.
You should try it.
No, I had emailed someone that I had never met.
A friend of mine said that they just met someone from NASA,
and they gave me their email, and I...
You're holding this story.
What?
It's like a big lie.
I swear.
This is all 2008.
And I got a job at NASA Ames down here in Mountain View.
Can I ask...
Thank you, NASA Ames fan.
Can I ask, too, Ariel, and maybe if you know,
is what you do when you say that you're a space activist,
is that something that there would be,
was there a version of you from the beginning
of kind of US space exploration?
Like, were there people who were outside of NASA
who were sort of being activists in that way
in the 50s and the 60s and the 70s?
I don't think there's been a lot of people
over the last few decades
because of the way science trended.
But in the early days,
I mean, the Jet Propulsion Laboratory
got started by a bunch of crazy people
experimenting with rockets.
How crazy? Like Sid Barrett?
They were pretty crazy.
No, they started by the explosives guy who was mixing fuels, Parsons. Yeah. The
jet propulsion lab. And so you say no one knew anything about rockets for crying out loud.
Somebody must've had a clue. They were, they were interviewing the, you know, these people who were,
you know, in their twenties who were getting jobs at NASA in the early 1960s and the reality of trying
to send a human into space was that they didn't
the people they were hiring, they didn't
know anything about orbits and rockets.
They were figuring it out as they went along.
But they weren't interviewing the troggs.
They were interviewing
sort of scientists of
some sort, right?
Great band reference.
These were people who worked in
mission control
during the Apollo era,
during the Gemini
and Mercury era.
And so do you have
a science background
before you emailed
this great email
that got you the job
at NASA?
So I don't.
I went to art school
and got my degree
in graphic design.
This is amazing.
Thank you.
This is amazing.
But it shows
you that people of all kinds
are required for this
endeavor of space exploration. Absolutely.
To paint our ways into space.
That's right.
Well, seriously, you want,
I bet you want some spaces,
that's a hilarious reference,
you want some interior
things to look nice. You want to have a nice design. You want some interior things to look nice.
You want to have a nice design.
You want ergonomic shapes and stuff.
I mean, that's what Virgin Galactic is certainly trying to do.
Yeah, I won't go into space unless it looks cool.
Yeah, space isn't enough.
That's my thing.
That's where I stand.
But the thing is that NASA reached out to you
because they want to get people from outside the building,
from outside their box, right?
Yeah, absolutely.
It was a very serendipitous experience
because the day that I had emailed NASA,
they had just posted a job description
looking for someone who explicitly had no experience with NASA
because they wanted to sort of bridge that gap and create collaborations between communities inside and
outside of NASA to create, you know, more new, clever, awesome stuff. Do you think they were
just looking for someone who wasn't a total nerd? I think they may have failed when they hired me.
You have your own nerdy proclivities.
It's true.
So, I mean, we just think about, you know, through history.
William Herschel was, it was a conductor, an orchestra conductor, music director.
Yeah, Charles Darwin, they say, flunked out of medical school.
Yeah, because at the time nobody believed his stuff.
And Thomas Edison was a salesman,
Einstein was a patent clerk, and you're a space activist. Right there. What? What are you looking at? So you worked at the CoLab? Yeah, yeah. so CoLab was the program at NASA Ames that was trying to get amateur astronomers
to collaborate with astronomers at NASA and trying to get different missions to open up
their data, which, you know, a few years ago was still quite a surprisingly monumental
task to do.
So when you say amateur astronomers, you know, one of...
Yeah, what does that mean?
What is an amateur astronomer? Like, what's the difference, what does that mean? What is an amateur astronomer?
Like, what's the difference between me who looks into the sky and an amateur astronomer
who knows something about what he sees?
I think it depends on who you ask.
You know, I mean, I think the amateur astronomer community would say,
you know, there are people who have telescopes, they own their own telescopes,
and they actually do observations, and they actually submit them to NASA or other organizations for, you know, further looking. Isn't that a thing
where you can, you can sort of take, you can volunteer as a lay person to take a chunk of sky.
I'm sure that's the official term. That's right. Take it and put it in your purse. Sky chunkers,
they call it. Yeah. Where you can sort of be responsible. You can look from home and say, I found this.
Yeah, no, there's a lot of programs out there from observing stars to observing even just light pollution.
You know, anything where you're just observing parts of the sky and submitting it so that you can create sort of a collective database and kind of expand our knowledge on any of those topics. If I sent an email that said, like, I found the Big Dipper again, like, how long
before they were like, please stop emailing
us about the
Big Dipper.
Good thing with federal agencies is
they can't exactly tell you to stop
emailing them.
So, you know, go for it.
Get ready, Nancy.
Because I just found the Big Dipper
again.
So, we say this all the time.
The difference between amateur astronomers and astronomers
is not the same as the difference between amateur tennis players
and professional tennis players.
Amateur astronomers, by long tradition, contribute a great deal.
You know, the Hale-Bopp comet or whatever.
These guys are just like, that's cool.
So even so, so though those communities
can get isolated like the amateur astronomer astronomer community can get isolated from the
normal people i think you just isolated them i'm very isolated from the amateur surgeon community
yeah that's different that's just what i'm talking. An amateur surgeon doesn't get a lot of work.
That's, I know.
They have to make their own work, Eugene.
So, Ariel, so you went in there with your art and design background, and what did you do?
So I helped sort of facilitate these collaborations, and I consulted with a lot of the missions
on how to make their data open but also accessible.
What mission, for example?
So the LCROSS mission, the mission that, if you remember, a few ago, there was in the news a big article about NASA's bombing the moon.
You know, that was all the headlines and everyone was freaking out at NASA that they were bombing the moon, but they were actually just impacting it with a small spacecraft and sort of looking at the surface of the moon from the debris.
surface of the moon from the debris. And so one of the problems in science and with NASA is that,
you know, a lot of times they think just opening up their data and just, you know, putting it out there and doing nothing else with it is making it accessible. But that's not really true. It's not
really until you build interfaces and actually think through how people can use this and make
it more accessible so that people with non-technical backgrounds can still do interesting
things with the data. Does it truly make it accessible? So when you say data,
what are you talking about? Pictures? Sometimes pictures, sometimes spectrum analysis. You know,
it depends on the spacecraft. If you had an art background, how did you learn all this science?
Or is that... I'm a fast learner. You know, it's funny. Getting a job at NASA for me was like getting paid to go to school.
I got to learn about dark matter and robots and all this stuff all the time.
And it was just amazing.
And, you know, the science, learning the science was actually, you know, not, it didn't take me that long.
It was learning the politics that took much longer for me to learn.
Working for the government's no small
thing. But speaking, you don't work there now.
Speaking of that. I advise them
now, yeah.
But I don't work for them. That sounds like the
best of both worlds. It kind of is.
Yeah. This is what you should do, but I'm gonna
go now.
That's pretty much it.
I told you. I told you.
I told you.
That's my role in Aerosmith.
But you're working on the future of human spaceflight?
So I was on a National Academy of Sciences committee about the future of human spaceflight
and telling Congress and NASA and the White House
about how to build a sustainable human spaceflight program
out to the 2050s.
And did they?
Well, we're not in the 2050s yet.
Yeah, good point.
How many people want to go to Mars?
As a civilization or personally?
That's a great question.
Expand on that. Unpack that.
I would love it if someone here
or elsewhere went to Mars.
And I think I would stay, but I would love the information
back.
Well, if you look
under your chairs, you've all won a trip
to Mars!
We'll talk about Mars in a little while.
That's what they all say.
What a ominous.
Does the, does the,
NIAC still exist?
Yeah, NIAC's still around.
But you were saying that something that you worked on,
the CoLab doesn't exist anymore.
Yeah, CoLab, unfortunately.
She had a grimace from the radio listeners.
It was a grimace.
Yeah, CoLab, the program, unfortunately, didn't last.
But the people who started CoLab went on to do a lot of awesome things.
One of them actually went on to found a startup here in the Bay Area called Planet Labs
that does small satellite exploration.
We're all about that.
What's small satellite exploration?
Small satellites exploring.
Sorry.
Listen.
I was going to say, how does that work?
And does it mean for people to send small satellites or companies?
This is a startup.
So they have a constellation of small satellites that are the size of like a loaf of bread that they send up.
And they try to get a full picture of the Earth every day.
So instead of only getting a full picture of the Earth on Google Maps, you know, once every few weeks or months. They are trying to do it every day.
So you need a constellation of spacecraft.
Yeah.
Do you miss the guys from CoLab?
Do I miss them?
Yeah.
Well, I still see them.
You stay in touch?
Yeah.
Do you have a big party on the last day of CoLab?
I don't know if it was a party so much, but yeah.
Was there wine?
Were there more than six people?
Colab was, I think
the actual program was a small
group of people, but it had a pretty
expansive network across NASA, sort of
having NASA ambassadors at each
location.
I love that you're avoiding whether you had a
party.
Sounds like it was an awesome party. There was a web of ambassadors. I won that you're avoiding whether you had a party. I know, yeah.
Sounds like it was an awesome party. There was a web of ambassadors. I won't say if there was wine.
So what does NIAC do? What kind of
things does NIAC do? So NIAC,
the NASA Innovative Advanced
Concepts Program, is the only
program at NASA that funds the more
science fiction-like, out there
you know, the cool
stuff.
The cool stuff that could transform future space missions over the next 10, 20 years.
Like robots that eat babies or what's like the good side?
More, you know, just like bad babies.
More things like, you know, using comets as propulsion systems or how humans might hibernate
on the way to Mars.
Or turning loaves of bread into small satellites.
Yes.
I've been listening.
I've been listening.
I have a list of some of the prizes.
Super Ball Bot.
Super Ball Bot.
Yeah.
So Super Ball Bot is a planetary rover that uses tensegrity,
which is essentially tension.
And by using sort of a matrix of joints and tension between those joints,
it can sort of bounce on different planetary surfaces.
And they think this might be a really cool rover to use,
rover of sorts to use on places like Titan where it's kind of more swampy.
So this would be a rover that wouldn't actually get stuck because it can sort of bounce around.
And its tension structures means that it can crawl up hills and do things that... So it's motorized tensegrity?
So it's sort of actuators with joints and...
What do you think an actuator is?
Like, I have an idea, but what do you think?
So actuators actually, you know, can extend and contract the tension in this particular planetary realm.
Solid guess.
And I thank you for it.
No, so tensegrity, everybody, goes back to Buckminster Four.
Yeah, we're at Buckminster Four.
Bucky.
Anyway, this was a guy that came up with the geodesic dome.
And so he had this other thing where you have all the structural members that are in compression are sticks or solid.
And everything that's in tension is just a rope or string.
So they look really cool because none of the stiff rods or whatever touch each other.
They're all held apart by very tight ropes or cables.
And so they are very
springy and bouncy because all those ropes
are stretchy and boingy.
And so, then an actuator...
I can't tell if you're flirting with me or...
It's the
way nerds talk sometimes.
Then an actuator,
everybody, if you've ever seen a bulldozer,
the shiny thing that
actuates.
That's where it falls apart.
What is this bulldozer
you speak of?
You've seen the really shiny rods
that push the shovel up and down.
Oh, yeah.
Still no.
Sorry, I graduated high school with a 2.1.
Are you saying actuators, how do they actually work?
I was asking really what it was.
Because I don't know, but that's not that weird.
The rod extends out of a tube.
It tracks into a tube.
Thank you.
So if you have a bunch of rods that extend in and pull in and pull out...
Yeah.
In a coordinated fashion...
He is for sure flirting with you now.
Like, I'm 100% sure.
I believe you're literally describing space ding-dongs, but I understand.
All right, let's move to the next item next.
That was Super Ball Bot. That was going to go to the next item next. That was super, super bot, super ball bot.
Super ball bot.
That was going to go to Saturn, to Titan, moon of Saturn.
They think that it might work well on Titan
because they've got lakes of methane alongside, I guess, actual methane rocks.
So you've got sort of like a swampy area on Titan,
and they think a traditional rover would have problems
trying to get in and out of a lot of the methane puddles
that exist there.
Yeah, I thought that would probably be the case.
Best to get an actuating ball butt.
Because of the spoinging and the boinging.
It'll bounce on the space mud.
That's going to be good.
So, item next, water walls.
Highly reliable and massively redundant life support architecture.
Yes.
So water walls is the concept of actually having walls of water that actually process waste and produce food for astronauts and kind of do it all in one. And
why this was kind of fascinating is because... Kind of do it all in one.
Yeah. So it's doing all of these processes together by using polyethylene bags that are
filled with water. And it can do things like grow green algae for astronauts, which isn't very tasty, but, you know, is protein.
And it can do a lot of those things.
And they're looking into it because the current life support systems on the International Space Station are all mechanical.
They break down easily.
But if you look into more bio-inspired designs where you more have a lot of, I guess, bags of water processing everything sort of as one cohesive ecosystem
that they don't break down as much.
And then when they do, you can easily replace them.
There.
Done.
And so that department does or does not still exist?
Sorry?
The thing that you worked for that was doing that,
is that still?
No, NIAC is still in existence.
CoLab is the program.
But water walls, someone's trying to make it happen.
Yeah, water walls is absolutely someone's thing.
How big are the water walls?
I think in the prototypes that I saw
they were just small bags, but I think the concept
is that you would actually surround
the entire space station walls
with them so that they would be sort of encompassing.
A football field kind of thing.
Well, if you put them on an international space station, absolutely.
Oh, yeah, absolutely.
How long till I can have a water wall at my house
and why would I need it?
Well, you know, it has the added benefit of radiation safety,
but, you know, you don't need that as much.
Both helpful and bleak.
You don't know.
It's an added benefit.
Yeah, if you need it.
Now, moving on, orbiting rainbows.
Orbiting rainbows.
She's like, the deadliest of options.
What? They sound adorable.
No, they are adorable.
Orbiting rainbows is literally a concept
to throw out a bunch of glitter into outer space
it's the rave option
go on
San Francisco
it's so hard to clean up
glitter though so I don't know if that's a great idea
well that is one concern
the idea is to throw out a bunch of
glitter into outer space and then actually
shoot a couple of lasers through it
so you've got rainbows, glitter
and lasers. I bet you guys did
have a party and it was pretty good.
And then the concept
is by doing that you're actually
creating prisms and you might actually be able
to image an exoplanet through
those prisms. Take me
back a few steps. Okay.
Okay. So you're imaging an exoplanet. Yeah. You know, with glitter. And lasers. Okay. So we've shot a laser into some space glitter. Yeah.
Yeah. And we're just in space. But imagine yourself like on roller skates just for fun.
Okay. It feels like it completes this weird 70s on roller skates just for fun. Okay.
It feels like it completes this weird 70s picture.
Probably wearing shorts.
Yeah.
Okay.
And then you're imaging an exoplanet.
Okay, I don't know.
No.
No.
What does that mean?
I'm imagining.
Like Kepler-23b?
Is it?
I think the concept was exoplanet, you know,
it didn't matter which exoplanet it was.
Okay, what is an exoplanet, please?
So an exoplanet is an extrasolar planet,
which just means a planet around a star other than our own.
Okay, great.
Would one example be Kepler 23B?
Yes.
Just checking.
And so if we shoot a laser through some glitter in space,
we can see an exoplanet.
What?
Yeah.
So here's what I think the concept was.
I'm jamming here.
Please jam.
Jam it up.
As, you know, engineer Phil.
Space jam.
You gently.
Uh-oh.
Yeah. Yeah. See gently. Uh-oh. Yeah.
Yeah.
See, it was a party.
It's all about the party.
So you put the glitter there and you shoot a laser at it
and then you configure the optical properties of the pattern of glitter in orbit.
Then you shoot a telescope at the glitter and
mathematically work backwards
to use the glitter as
a big lens.
Uh-huh. And you figure
out where the glitter is
using the laser from Earth. I'm jamming
here, as I mentioned.
Eventually it becomes a really cool t-shirt.
Yes!
If you have more questions,
Mariah Carey made a movie about it.
It's called Glitter.
Burning Man in space!
It's Burning Man in space.
Good to know.
Transformers for Extreme Environments.
So Transformers for Extreme Environments.
So you've got the Autobots and the Decepticons. No. So Transformers for Extreme Environments, so you've got the Autobots and the Decepticons.
So Transformers for Extreme Environments is a project which wanted to put these sort of
shape-shifting reflectors up on the edges of caves on Mars or on the moon, and by doing
that they could actually reflect sunlight to a rover so that it could go actually explore
these caves.
Why this is important is because a lot of times without solar power, rovers can't actually work. And so this is
a way of sort of reflecting sunlight to a rover in a crater or cave so that it can actually explore
those spaces without turning off. I feel like I understood that. Yeah. We did it. Yeah, the glitter thing.
We all did it. I was like, the glitter thing sounds accurate but i remain confused
fascinating though i i i feel a lot better about humanity hearing about all these projects that
are being worked on it really is uh so as we say at the planetary society space exploration brings
out the best in us by that i mean humankind it brings people together from all walks of life because everybody wants to explore space.
Right?
It's not called dirt talk.
Star talk, for crying out loud.
It's cool.
Now we got a lot to talk about.
You also run the hackathon.
Science Hack Day. Hack Day, you also run the hackathon. Science Hack Day.
Hack Day, which is derivative of hackathon.
We're in San Francisco.
We have maker bots, maker fairs.
We have hackathoners.
So this is where you take things, you innovate,
you make extraordinary new things.
So we'll be back in a few moments
to talk about hacking on the way to Mars.
This is StarTalk.
I'm your host, Bill Nye.
Eugene Merman.
You're supposed to be applauding and going crazy.
Claudio Dardi.
Ariel Waldman.
Janet Varney.
We'll be right back. So, if you remember last time, which was moments ago, we were talking about the charm of hacking,
of repurposing a thing to do something new and cool.
And what we all want to do is go deep,
farther and deeper into space.
And where we all want to go is Mars.
Yeah?
Cha.
So, Arielle, how are we going to hack our way to Mars?
People are doing a lot of things
to hack their way to Mars right now.
One of the NIAC projects, actually,
that I thought was really interesting
was a project called Urban Biomining
which actually takes
synthetically enhanced microbes
and has them
actually break down electronics
to be able to use them and reprint them
on the surface of Mars.
This is digesting electronics?
Wait, are you saying like
microbes eat a microwave and then recreate a microwave on Mars?
Kind of, in a sense.
It's not that far off.
It's the concept of actually using these microbes.
So you're going to Mars.
You have a lot of electronics with you.
Some of those electronics are going to break over time.
And what if instead of just tossing them aside you could actually feed them to a
bunch of microbes and have those microbes in turn poop out copper and other useful materials that
you can actually create to create new electronics and new circuits good idea wow it's amazing no it
is a good idea so you know yeah you guys are you hip to this expression e e-waste? Yeah. Ms. Varnum seemed deeply concerned.
I can't.
The podcaster can't see the fellow brown.
I have pooping copper ringing in my ears, but in a good way.
In a good way.
What's the difference between what you just said and the wizardry of alchemy?
Yeah.
One might be real.
Are you describing alchemy?
No, but I can get it.
It would be a heck of a thing if you had some microbe
that would strip a circuit board
and get the metal off it.
It eats copper and poops out copper.
Well, it eats mixed metals
and can actually then poop out copper.
So it can kind of refine it
so that you can get the exact type of metal
that you want to create a circuit
or create some other sort of electronic.
Or a bunch of them, some poops out iron, some copper.
Yeah, so essentially this is what it means
to be sort of synthetically enhanced microbes.
You sort of train them to do certain tasks.
Oh, you just give them a real taste for copper.
Yeah.
Yeah.
Yeah.
You're making like a really good copper...
Exactly. Exactly. Samosa. Yeah. You're making like a really good copper. Exactly.
Samosa.
Okay.
But that is a very cool idea, really.
Because e-waste is a big problem.
You know, we grind up electronic circuit boards to recover the metals and they mix together.
They're hard to separate.
A lot of plastic.
It takes a lot of energy.
What if we could hire microbes to do it?
That would be cool.
Do we have to pay the microbes?
I don't think so.
As long as they're American microbes.
I mean, of course, at some point,
they'll turn on us and eat us and all that good stuff,
but, you know, copper.
So right now, though, we can't really land people on Mars, right?
Not yet.
We can land them.
They'll just die right away.
No, Eugene, I saw that documentary where he lived and he survived for a while.
Good-looking guy.
Funny.
Yeah, yeah.
Remember?
Oh, yeah, yeah.
You're welcome.
He talks while he eats a lot. Funny. Yeah, yeah. Remember? Oh, yeah, yeah. You're welcome. He talks while he eats a lot.
Yeah.
And he listened to disco music the way you do.
What else could keep you alive on Mars?
Well, we have to do an advanced concept research on it.
So people want to go to Mars badly.
Why?
I think people have a lot of different reasons.
In the human spaceflight study for the National Academy of Sciences,
we defined a lot of different rationales that people have
and discovered that there's no one rationale that really outwins them all.
Some people say, you know, inspiration of students, economic return, national security.
But then there's the aspirational ones, human
survival, or shared human destiny.
Soon it'll be the only place with a Planned
Parenthood.
Whoa.
Whoa.
Whoa.
Not if we fight.
Not if we fight.
Cancer screenings.
Mainly.
Sorry. No, so everybody, as we often say, going to the moon
was motivated by the Cold War. And so he's not here tonight, but if Neil deGrasse Tyson were here,
our beloved, he would say, if the Chinese space administration were going to
send a mission to Mars, boy, we'd get on boy, the United States would get on it in a second.
But the reason that I want to send instruments and then humans to Mars is to look for signs of life.
It would be an extraordinary thing to find evidence of life on another world, and if there's something still alive, which we presume would be either
copper or iron-loving microbes, it would change the world. It would change the way everybody feels
about being a living thing here on earth. It would be wild. It'd be like Copernicus or Galileo. It
would just change the way you feel about the cosmos. And so that's what the advanced concepts
business is all about. It's business,
right? Yeah. Well, I mean, it's the business of exploration and making sure that we're actually
pushing the boundaries and not just only funding things that seem realistic today, but funding
credible research that could be done even though it can't be applied maybe for a couple of decades.
For a couple of decades. So when you have your hackathon,
hack days, science hack days.
Science hack day.
Do people come up with space exploration ideas?
Absolutely.
Sometimes very funny ones.
Some of the hacks that I've seen at science hack days,
one of my favorite ones was an asteroid lamp,
which someone wanted to create that would
actually light up every time a near-earth asteroid flew by the earth, and it would make a loud sound.
So it sort of was like a near-death lamp that you could freak your co-workers out with.
So what sort of sound? Whatever sound you want, but it was a loud buzzing sound.
That they conceived of or they built? They built. So this
was using an Arduino and plastic cups because it's a hackathon and you have to make do with what you've got.
What was the first word? Arduino. Right, so what is an Arduino? An Arduino, in a sense, you can think of it
as sort of a tiny, dumb computer, I guess. It's a way of actually plugging in sensors and connecting it to data sets.
It's very cheap and small. A lot of people here in San Francisco have probably played with one.
Yeah, a few nerds. All right.
So we want to, when these people hack, do they have Mars in mind?
I don't think they...
Where do you get the materials? Do people show up with...
It's a bring your own materials event, you know, with the...
You know, B-Y-O-M.
With the, you know, asteroid lamp, it was an Ikea lamp,
plastic cups, some glue,
and an Arduino hooked up to a Twitter feed.
That sounds gorgeous.
Hooked up to a Twitter feed?
Why the last one?
Because it was harassing people?
Yes, with asteroids.
Yeah, yeah.
No, people created a Twitter feed
that actually hooked into a data set
that tells you when asteroids pass by the Earth,
which actually happens fairly often.
But if you didn't know better,
it would be the alarm that lets you know
to duck and cover for an asteroid.
So it tweets to say now.
It tweets saying,
so the account is called Low Flying Rocks,
and it tweets to say how close to the Earth they're coming,
when they're expected,
and a lot of other information about them.
So somebody built a lamp that could terrify them as they slept?
Yeah.
Why not?
Or maybe soothe them.
Maybe it would be just a happy sound most of the time,
like a white, pink noise,
and then something would go wrong.
But if you like to worry about things, everybody. It sounds sounds like a great idea did you have any stuff i could worry about
asteroids are really good for worrying they're very unlikely to hit but they're so-called
low probability but high consequence uh like like trump
yeah Like Trump.
Yeah.
Yeah.
The human asteroid.
So.
Oh, God.
Not changing the subject too much, but if you're going to deflect an asteroid, people talk about this.
No, you'd have to see it a long way out, 10, 20 years, 30 years out.
And then you could put like a mirror on it, a shiny, some glitter, some glitter.
And it would reflect sunlight and that would change the way it reflects sunlight,
and it would change its course.
So you worked on star shade, right?
Well, I didn't work on star shade,
but that's a project that came out of NIAC.
And what was that doing?
It wasn't deflecting asteroids,
but it is about creating images of exoplanets
by creating a really long, flower-like, unfurling shade
that goes in front of telescopes
and by doing that it can block out starlight and actually be able the telescope can then be able
to actually get a picture of the exoplanet um but this is something that would be very large in
space so like the size of a baseball diamond in space in space and then we shoot a telescope
right at it to block out the star
and then the hopes of seeing the planet behind it way, way out there.
Yeah, so one of the main ways that we discover exoplanets now
is that we look at starlight and we sort of infer that a planet is going in front of it
because we see dips in the starlight.
But we can't actually see the planet itself because we're looking just directly at a star.
At the super bright star, yeah.
Yeah, so by blocking out the light of the star
and focusing on the planet itself,
we might be able to get a picture of it.
But you guys, just think about what we are doing.
I say we, using our intellect and treasure, our society.
We have instruments that can point
at a fantastically distant star
and see it dim because a planet passes
between us and the star.
That's like out there, man.
And this would be taking it up
another star shade notch.
Yeah, this is a dumb question,
but because you're talking about
ways to sort of amend
existing telescopes,
are we sort of, have we reached what we're able to do
in terms of like, this is as powerful as this telescope can get.
So this is as powerful as any telescope can get.
We can't figure out a way to make it more powerful.
Thus, we need to hack it, right,
and make a beautiful flower cloak.
I like to think of it in a sort of Harry Potter context.
Yeah, I mean, in a sense, that's correct. I mean, we of it in a sort of Harry Potter context. Yeah, I mean,
in a sense, that's correct. I mean, we can always be building bigger and better telescopes, but I think we've definitely reached a stage where we're looking into how we can augment telescopes or how
we can actually create constellations of telescopes to be able to give us more power to do more
things. So the other thing is, a star is bright. So if you're pointing, no matter how small or big your telescope,
you're still looking at a very bright star.
This is solving a little different problem.
Use your big telescope to look for the dim planet next to the star.
It's a very cool idea.
And just changing the subject back to me,
the Planetary Society flew our solar sail last year. Thank you. If there are any Kickstarters
out there, thank you. For those of you listening on the bus, I am wearing a light sail tie,
and we're going to fly light sail two on the second Falcon Heavy, which is the SpaceX rocket.
So it hasn't flown yet.
They're going to go back to flight any minute.
So they got, the Falcon 9 has how many engines, if you were shooting from the air?
Six.
That's pretty good.
That's good.
Is it two?
Nine engines?
Yes, nine.
Yes.
Nice.
And the Falcon Heavy has 27.
Heavy engines.
It can lift heavier things.
Yeah, totally. More space sails.
Light sails. Yeah, and
more small satellites. So the light sail
for those of you who for some reason
are not just totally engaged with the
Planetary Society,
it's 10 centimeters by 10
centimeters by 30 centimeters. It's
smaller than a typical... It's like the size of a loaf of bread.
It's a little smaller. Yeah. Right. Well, It's like the size of a loaf of bread. It's a little smaller, yeah.
Right.
Well, you know, an artisanal loaf of bread.
Yes.
With shiny stuff inside.
Exactly, yeah.
And so we deploy the sail
and then the light from the sun pushes it.
And you would say, but I thought light has no mass.
How can it have momentum?
Yeah, that's what I would say.
And then what would you say?
Say a couple of comics or something like that.
What would you say?
I would say that light has momentum, and it's a strange and amazing thing.
And so it pushes the solar sail through space.
And I will be going to the solar sail conference.
Is it in space?
It's on the way.
It's in Osaka, Japan.
It's going really fast.
Keep going.
So we're very excited about that.
And that is something that people have messed around with for a long time.
that people have messed around with for a long time and the idea is you might use a solar sail or something like that in a sort of mundane way to take to
ferry stuff to Mars right use sunlight to push things if you have time you can
get things with no with very no fuel and send them a long distance in the solar
system but there's also this fabulous idea, Starshot, right?
Did that come out of NIAC, out of the innovations?
Yeah, it was based on a NIAC-funded project.
So this guy, Philip Lubin, is working with lasers, which is incredibly cool.
But he's working with lasers to see how they can propel paper-thin wafer-sized spacecraft.
So when you say wafer-sized, you mean like a saltine?
Sort of, yeah. Like, you know, looking at how lasers on a very small scale can be able to
propel a spacecraft, and instead of going to Mars, actually looking into going to Alpha Centauri.
How far away is that?
You tell me. Oh, it's four. I think it's four light years.
How long would it take a
cracker to get there?
So that is a great question.
They hope.
That is a great question.
I believe they're aiming
for 100 million miles a second
which would mean you might get there in about
20 years.
And then when it gets there and it's eaten, would we get a signal? for 100 million miles a second, which would mean you might get there in about 20 years. Oh.
And then when it gets there and it's eaten,
would we get a signal?
This is a very...
This is a car-based space program.
I'm not sure.
You're going to go four light years in 20 Earth years?
They're hoping to reach about 30% of the speed of light.
Yeah.
Whoa.
These are the fastest crackers you've ever heard yeah yeah so it's
something that you know it like many nyack proposals it sounds crazy but there's nothing
in physics that says it's impossible and so they're looking into sort of the preliminary
you know concept studies that can do this and so uh so this was a nyack funded proposal and then
along came a billionaire, Yuri Milner,
and he invested $100 million into actually creating a proof of concept of this in hopes that
we could perhaps have a very tiny, very thin spacecraft at Alpha Centauri within a lifetime.
So it would get out there and it would send a signal back, a picture,
in four years at the speed of
light that's what they hope that is extraordinary and just crazy cool these are just wild no really
it's fantastic so that is a light sail star shot and star shade are going to dare i say it change
the world this has been really cool you guys yeah this has been really cool, you guys. This has been really cool.
A hand for the panel.
Thank you so much.
Eugene, Claudia, Ariel, Janet, I've been Bill Nye.
Let's change the world.
Thank you all.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.
Thank you.