Radiolab - Big Little Questions
Episode Date: August 30, 2024First aired back in 2017, here’s a show of questions and, sometimes, answers. Cause, we get a lot of questions. Like, A LOT of questions. Tiny questions, big questions, short questions, long questio...ns. Weird questions. Poop questions. We get them all.And over the years, as more and more of these questions arrived in our inbox, what happened was, guiltily, we put them off to the side, in a bucket of sorts, where they just sat around, unanswered. But now, we’re dumping the bucket out.Today, our producers pick up a few of the questions that spilled out of that bucket, and venture out into the great unknown to find answers to some of life's greatest mysteries: coincidences; miracles; life; death; fate; will; and, of course, poop.We have some exciting news! In the “Zoozve” episode, Radiolab named its first-ever quasi-moon, and now it's your turn! Radiolab has teamed up with The International Astronomical Union to launch a global naming contest for one of Earth’s quasi-moons. This is your chance to make your mark on the heavens. Submit your name ideas now through September, or vote on your favorites starting in November: https://radiolab.org/moonSignup for our newsletter!! It includes short essays, recommendations, and details about other ways to interact with the show. Sign up (https://radiolab.org/newsletter)!Radiolab is supported by listeners like you. Support Radiolab by becoming a member of The Lab (https://members.radiolab.org/) today.Follow our show on Instagram, Twitter and Facebook @radiolab, and share your thoughts with us by emailing radiolab@wnyc.org.Leadership support for Radiolab’s science programming is provided by the Gordon and Betty Moore Foundation, Science Sandbox, a Simons Foundation Initiative, and the John Templeton Foundation. Foundational support for Radiolab was provided by the Alfred P. Sloan Foundation.
Transcript
Discussion (0)
Hey, it's Lethif.
Before we get to today's episode,
I wanted to play for you just a tiny bit of a chat
that I had with our executive editor, Soren Wheeler,
because I had this kind of burning question
that I wanted to ask him,
and it actually ended up inspiring
why we decided to play this episode for you today.
All right.
Okay.
Why are we really here?
Okay, I wanted to bring you here today
because you are one of the few people at this show
who has been around for longer than I have.
You started as an intern in what year, Sorin?
2007.
2007.
Yeah.
Do you know how many episodes of Radiolab
you have worked on?
It's gotta be north of 400.
No.
Not that I totally made or,
but that I had something to do with.
Wait, how many shows have we even made?
Oh, it's probably like-
As a show.
How many episodes?
I think probably around 500 or something.
Wow. Wow.
I mean, there's some times it was like a rerun with an update or we had to put in a show
of little things.
And of those, you've worked on the preponderance.
This is some preamble to you suggesting that it's time for me to leave this show.
Yeah, it's time for you to move on.
This is a coup.
You've all gotten together and decided that, you know.
No, but like, so my question for you, put simply,
is why do you stick around?
What, after so long, do you still get joy from doing this?
And where does that joy come from?
Where does the joy...
I mean, I guess it does feel like we kind of get to do anything.
Like, so many shows are, you know, kind of have to be in a box like crime or sports or
this or that.
But you know, for us, it could be, we get to do like, I don't know, hockey and then
some weird thorny legal issue and then black holes and then like academic publishing.
But actually the thing that keeps you going, the real joy like week to week is that for
each and every one of those things, there's always something you didn't know or didn't
understand or you thought you knew and then you realized you didn't or you'd never even
thought you wanted to know something and then all of a sudden you do.
Sometimes thinking back over the last 17 years, it just feels like a fever dream of questions.
Like, she swam up right next to me and then came up and looked directly at me.
Like, can a whale say thank you?
Right, right.
Or how can your mom also be your aunt?
Or...
Do you enjoy your bowel movements?
No.
Have you ever thought about killing yourself? No. Do we lie to ourselves? Can animals laugh? Where's morality come from?
Why is there this group of butterflies that are thriving in an artillery range? What makes
someone successful? Why can't you sell your blood? Could we ever cheat death? Why do vegetables
spark in a microwave? Can you think without words? Why do we sleep?
How can you be a scientist and not know the answer to that?
Does time slow down with your fall?
Can we make a living thing?
Can babies do math?
Was Darwin wrong?
Eels? How does Christo's are made?
How can you make a can of lager?
And how fast can you play Beethoven's full symphony?
Wow, those are a lot of questions that are...
Why was Ted Kous he's so angry.
Oh, you're still going. All right.
Okay. You go.
I don't know. You could.
You could keep going.
You could.
And that does feel really good to think about all the different things that there's already a Radiolab for.
You know, also to me, it's like it's actually a fun challenge to find like little nooks and crannies where it's like, oh, we've never even gone, we've never even gone close to this before.
Yeah. And sometimes, you know, the answer comes, you just keep wondering things.
The answer comes from somebody on staff or you get a pitch that has a new question
that you've never thought of before.
Although, you know, there was, I have to say, like, one of my favorite things was
there was a moment where we were all sitting
around and realized we're asking all these questions or we're always looking for questions,
but people are always actually asking us questions too.
And so we're just like, looked in the email inbox and we're kind of like, oh my God, there's
a treasure trove.
There are some weird ones.
Yeah.
There's some great ones.
Yeah. There's some great ones.
So like, I think it was like 10 years ago,
we did a thing where we were like,
let's just take those questions and make a show.
Just take all these listener questions and just hit go.
And we've actually done several of these now.
We call them like our stupid question shows.
But I think that first one was like 10 years ago
or something like that.
And it's just, there's something about those shows
that's really fun.
I mean, they're listener questions, which is cool.
But it's also just like, it just hits the spirit of what we do in some kind of other
way.
And I don't know, those are some of my favorite shows.
Yeah, I agree.
Okay, so right after having that conversation with Sora, and it was like, okay, we need
to play our original Stupid Questions episode.
We call them internally stupid questions,
but it's like a tongue in cheek thing.
We don't actually call it that.
The episode was called Big Little Questions.
Before we get to that,
I just wanted to say something
that maybe you're tired of hearing,
but it's true is the reason we keep saying it.
We are an independent nonprofit show for us to keep doing what we do, to keep asking these
questions that seem small but are actually big.
We need help.
We need your help.
We need your support.
And the best way to do that is to become a member of the lab.
The way to do that is go to radiolab.org slash join. If you do that as a member, you will
get a bunch of great stuff. You will listen to the show with no ads. We actually put up
a bunch of bonus content for our members, including, you know, extra little conversations
nuggets that sort of fell out. If you sign up before the end of the month, we have a
very special gift for you. Everyone on staff is pretty excited about it. I'm
not gonna tell you what it is yet, but for now enjoy this romp of listener
questions. Big little questions. Have fun! Hey, I'm Jad, I'm Rod. I'm Robert Krulwich.
This is Radiolab.
And today, we're going to hit the phones.
Hello?
Hi, can I speak to Mark?
Starting with this guy, Mark Morrison.
This is me.
Hey, Mark, this is Jad calling from Radiolab.
Hey, Jad, good to hear you.
Got ahold of him at his home in Olympia, Washington?
I'm hanging out on the front porch because kids are running around.
So you might hear some traffic.
Okay, gotcha
Alright, maybe we should just jump in and you should just tell me the story. Okay, so I was DJing a wedding
Out in Lacey, which is the next town over it was a hot
like late spring kind of feeling like summer kind of day and
we were in a little
feeling like summer kind of day. And we were in a little rented facility that had like windows on all sides and all of a sudden the power starts flickering and it starts raining really hard.
Okay.
Then trees are falling over, the wind is gusting and the sky turns to night.
Whoa.
And this is like 3.30 in the afternoon.
So Mark takes off, goes back home.
My in-laws are visiting in town
to hang out with the new baby.
And we open up the curtains, turned off all the lights,
and we're just kind of marveling at the insane power
of this storm that's happening.
My wife is sitting on the couch,
my two-year-old is watching Charlie Brown
or something on the iPad,
and then all of a sudden, there's just a loud snap,
like the sound of a whip cracking,
or like a two-by-four being snapped in half.
And about a foot and a half to two feet in front of my face
right next to my mother-in-law and the baby there's a little sphere of light
white light just a little orb the size of like maybe an orange or a grapefruit, kind of blurry edges around it, floating in midair as bright as like the sun,
like the bright, it lit up the entire room.
Wow.
We all screamed.
Everybody in the room in unison.
And Mark says this sun orb
just sort of hovered in front of his face.
Kind of going, womp, womp, womp, womp.
For maybe a second.
When all of a sudden,
poof, he was gone.
Yeah.
That's some X-Files shit right there.
Yeah, none of us had any idea what the heck happened.
Well, did you go around the room being like,
did you guys see that?
Did you see that?
Yeah, everybody saw it.
Everybody saw it.
My mother-in-law thought that I had taken some kind of fireworks
and thrown it up in the air.
What did you do? I didn't do anything. So what I did was I started trying to Google it and there's, you know,
I mean, imagine trying to Google that. You're not going to find anything.
What did you type into Google?
A sphere of light floating in indoors.
Like, I didn't get very far.
Yeah. But I just I just wanted to get to the bottom of it.
And so what Mark did is he sat down on a computer and he typed up this email
Basically saying like what the hell is this thing and then he sent that email into the void
Which would be us
Yes to our email inbox and you know, it sat around for a while because we tend to get these kinds of questions a
it sat around for a while because we tend to get these kinds of questions. A lot. Are there more stars in the universe
or grains of sand on earth? A lot. A lot. Is it cleaning beneath the sticker of the apple?
Why do some birds walk and others hop? How do fish hear? Why are horses special? We get
things like...
What's up with traffic jams? Random questions like... Helium is a finite resource, why are we
wasting it on balloons?
A lot of poop questions. Why is different animals poop shaped differently?
Yeah, a lot of poop.
What happens when you flush a toilet on the equator?
And they just sort of pile up.
We sort of put them in this bucket and then feel guilty about not answering them.
And over the years...
Well they keep coming so the bucket gets fuller and fuller.
And fuller!
So finally today we decided, okay, let's just dump the bucket out.
And so we're gonna try and answer some of these questions today, bunch of us.
Hello?
Beginning with the question about the orb.
Can I speak to Martin please?
You're talking to him.
Try and answer Mark's question.
I call up a guy named Martin Uman.
Professor of Electrical and Computer Engineering, University of Florida.
Thank you.
Is this still a good time to chat?
It is about the only time because I'm going to go to dinner in about 10 minutes.
All right.
Excellent.
So we'll just jump right in.
All right.
How long are we going to talk?
Well, I'll tell you.
So I told Martin the story.
Thunderstorm, boom.
Glowing orb, poof.
Glowing orb, gone.
Yeah.
So maybe I'll just put the most basic question to you. Like, what is that?
Well, that observation is not uncommon,
and it's called, generally called ball lightning.
Ball lightning.
Yeah, that's what it's called.
And according to Martin, ball lightning is timeless.
Ancient Greeks described exactly the same thing.
In the 19th century and 18th century,
they used to commonly come down the chimney,
come out the fireplace.
Oh, wow.
But now, says Martin, we are living in an electronic world,
and so these balls of lightning...
Sometimes come out of a wall socket, sometimes out of a telephone.
They happen in airplanes, they happen in submarines.
Whoa. That actually, that's been reported?
Yeah. Lightning strikes outside an airplane,
and a ball comes through the windshield
and floats down the whole plane.
What? If I'm in that plane, I'm thinking...
You're going to hope you have your diaper on, right?
Where your depends.
Anytime you've got electrical stuff going on, you can make a ball of fire like that.
So do we know anything about what causes what it is exactly?
Is it just another form of lightning that somehow manages to ball itself up and hang around?
Well, probably.
Martin is actually one of the few people who has studied ball lightning in the lab. He
actually got funded by DARPA to try and figure out how it works. Wasn't quite able to. He
says what's likely happening is that when a bolt of lightning strikes, it might hit
something.
Soil, water, tree.
Whatever it is, some substance.
Gets lit up and somehow forms itself into a sphere, like a balloon or a bubble or something.
Like if you imagine lightning hits some dust, shocks the dust, changes its chemistry
so that it forms some kind of spherical scaffolding,
and then the lightning sticks to the scaffolding or something?
Maybe that's what's happening, but you can't prove it. I mean, there's some theory which indicates
that that might happen, but if you go in the laboratory and you try to make it, you can't
make it, so you can't prove it. And if you get a book on ball lightning lightning or you get my book and look at the chapter on ball
lightning, you'll see probably a list of 50 different theories that people have come
up with from all the way to black holes and discontinuities in time space and things that
are just completely almost out of this world.
So they remain a mystery, but a well-observed mystery.
Did you know that people don't have any good math
for how lightning gets started in a cloud?
We don't know how lightning can get started. It shouldn't be able to.
It shouldn't really? Based on what?
Based on all the measurements that have been made of the conditions in clouds.
The world is full of things that aren't understood.
Almost nothing is understood. Do you find yourself thinking about ball lightning
and then suddenly just tiptoeing into an existential crisis?
How little we know of the world?
Well, so I make my living is trying to uncover
little more bits by little more bits,
but yeah, there's lots that isn't known about everything.
Next up, producer Tracy Hunt goes on a field trip
to some very hallowed ground. Right, I think I finally reached the library.
The New York Public Library. The New York Public Library
The New York Public Library
Within its white marble walls is stored the sum of man's wisdom
which in its glory days
Okay, so I'm right here in the Grand Hall.
There's like beautiful chandeliers all over the place, these gorgeous columns.
was filled with seven floors of stacks
millions of books in every field of human
endeavor row upon row upon row of shelves, miles of shelves, close to 50 centuries of
human thinking and experience.
And every year, millions of visitors like Tracy would walk through these hallowed halls
each has a question with questions fueled by curiosity, the desire for truth, for knowledge,
for wisdom, people trying to unravel the mysteries of the universe.
I came here to ask them a question about catnip.
Catnip?
Yes, catnip.
Why? Why catnip?
Oh, I should back up.
So we actually got like 500 questions from our listeners,
so I thought it might be a good idea to take some of them to the library.
Hi Rosa.
So I met up with this woman.
Nice to meet you. I'm Tracy.
Nice to meet you Rosa.
And she walked me into this office.
There's about like, I don't know, 12 people sitting at their desks.
Why don't you just introduce yourselves?
Okay, sure. So my name is Rosa Lee.
I manage Ask NYPL,
and I've been in this department for about five years.
Ask NYPL what?
Ask NYPL, it's 917, Ask NYPL.
I'm putting the phone number out there.
And if you call them and you ask them a question,
it's their job to answer it.
Yes, so we are like a call center.
So our typical day starts with questions.
And like in a typical day, how many phone calls do you get?
A typical day, about 150 to 200.
And Rosa was telling me that most of the questions they get are,
Well, the weather would be like this weekend.
Very boring.
Hey, my library card expired or I want to renew this book.
But you know, also they get some weird ones.
We take them all.
Yeah, so I got a list right here,
and in the past they've gotten things like,
what kind of apple did Eve eat?
Is it proper to go alone to Reno to get a divorce?
Any statistics on the lifespan of the abandoned woman?
Do camels have to be licensed in India?
What is the natural enemy of the duck?
Can I get a book telling me how to be a mistress
of ceremonies at a musical orgy?
What does it mean when you dream
you're being chased by an elephant?
And do they answer all those?
They'll try to.
So, you know, I was maybe a little dismissive for a few of them.
I mean, all the questions, of course, are very important.
We welcome all questions.
Please.
This, by the way, is Bernard.
Bernard van Marsevin.
He has been working for Ask NYPL since about 2001.
And so the question, he did answer my catnip question,
which is,
Do large feline species like tigers and lions
have the same reaction to catnip as domestic cats?
Yes.
All cats like catnip.
Apparently tigers at least.
But, you know, I had all these questions,
so I actually had them pick one
that they thought was super interesting.
Yeah.
Which one did you pick to answer?
Let me get the exact wording out of it. So, yeah, so here we go.
Could you play a meaningful game of Frisbee on the surface
of Mars? Yeah, I really like that. Yeah, that was
a good one. And I think the word that makes it like just really shine
is meaningful. So, the first thing he does...
If you want to get me kind of doing some searching,
you know, again, back of the envelope kind of stuff here.
And he, I guess I was a little disappointed that we didn't
bust out any, like, books.
I'm just looking up Frisbee aerodynamics.
He literally just turned to his computer
and started Googling.
How does a Frisbee behave here on Earth?
The spin of the Frisbee, of course, lift, drag.
So he looks all that stuff up.
Let's see.
Then he looks up aerodynamics.
On Mars.
On Mars.
It's very thin, the air there.
Because the air is so thin on Mars, you wouldn't get that spinning, lifting thing that you always get in frisbees.
It might not have the same sort of hovering effect that a frisbee does here on Earth.
It probably would be more like just throwing a ball.
It would just go...
10 feet away, 15 feet away.
I don't think that counts as a meaningful game of Frisbee.
But, you know, you could still throw it back and forth.
But meaningful?
To me, the question is, like, you're playing Frisbee on Mars.
I mean, that's just inherently meaningful.
Is I ready meaningful?
Oh, OK.
You know, growing up, I remember seeing rebroadcasts
of the astronauts on the moon.
Well, yesterday, while you were looking that up,
you might recognize what I have in my hand is the...
Playing golf.
...channel for the contingency sample return, it just so happens to have a New York Six iron on the bottom of it.
In my left hand, I have a little white pellet that's from the Native American.
I drop it down.
And I'm sure that they were not playing, like, you know, PGA golf.
But I'm going to try a little Sam Trav shot here.
They got more dirt than ball. They were amateur duffers, but they were golfing on the moon. I mean, to me, that's pretty great.
That's pretty impressive.
So the venue kind of makes the whole endeavor meaningful, I think, in its way. Thanks to producer Tracy.
Oh wait, I actually did ask them my dragons question.
Oh well, well then next up, Tracy Hunt and Dragons.
Hi, this is Christina. Hi, this is Tracy.
Hi.
Oh, hey, hey.
Oh, you called me back.
This question is from Christina Hardquist.
I'm a native of Novato.
Out in Northern California.
And I was born and raised here.
So yeah, love this place.
And you, and what was your question to us, if you remember what it was roughly? Yeah, so I came across this article about these creatures called OMS that I guess were
being washed out of these caves in Eastern Europe.
What are they called?
OMS, O-L-M, these sort of like blind cave dwelling amphibians.
They're totally white, their skin is translucent, very like
otherworldly. And the article touched on the idea that folklore thought that these little
creatures were actually like dragon babies being pushed out of these caves where these
huge dragons live. So I started digging into it a little bit,
and of course you can only find so much on the internet,
but there was this idea of dragons being a sort of like
a universal myth across different disparate cultures.
And Christina started to wonder why it seemed that
so many cultures all over the world
all have myths about dragons.
What is it about humans that'll cause them to believe
in these huge, scary, fire-breathing animals?
Is that true that cultures all over the world have dragons?
Well, sorta.
You have the Northern European dragon
that we're all familiar with.
Then there's the Chinese dragon,
which is a little
different. It doesn't have wings, doesn't breathe fire. Then there's other dragon-looking
sort of things, the Nana Bolele.
The Nana Bolele.
Among the Basoto people in Southern Africa. There's the Amaru associated with the Incan
Empire.
Yeah. I think there's no doubt that we have fabulous, awesome creatures like dragons in
almost every culture in the world.
So this is Adrienne Mayer.
I'm a research scholar in the Classics Department at Stanford.
And I'm most interested in is what sorts of things found in nature might have led pre-scientific
people to believe that dragons or monsters or other fantastic creatures really existed
at least in the past or even maybe in the present.
Adrienne actually wrote a book called The First Fossil Hunters that lays out this theory
that a lot of these stories were actually based on people finding old, you know, fossils and bones.
Fossil bones or teeth or claws or footprints embedded in stone. So they'd see a set of old bones that they couldn't explain with any modern creatures.
So the creature they go to is this dragon-shaped thing.
Yes, but...
I do want to point out, though, that we can never know for certain which comes first,
the observations of mysterious traces of unknown animals or the stories of dragons.
We don't know which comes first.
She says it could be that the story about the dragon was already there and then when
they found some bones, they just sort of applied those bones to the dragon myth.
Well, if the dragon came before the bones, where did it come from?
Well, there's another theory.
Some scholars have said they're like monsters of the id. They arise from ancient memories of very real predators that were faced by our ancestors.
Basically, dragons are composites of these creatures that used to eat us and hunt us and kill us, like crocodiles.
Sabre-toothed tigers and lions.
Cave bears.
Gigantic serpents.
Snakes.
Pythons.
Condors. giant raptors.
So you can take like the scaly skin of the crocodile, the claws of the saber-toothed
tiger and its saber teeth, the wings of these raptors, put them all together.
So it says all the old terrors rolled into one like boom, together.
Yeah, they tap into all those spheres that are fears that are already inside of us, in theory.
I'm going to go for that one.
Yeah, I like that.
That works.
That feels like an answer.
Well, you know, like they're very powerful.
I mean, they could be very scary.
They could be very destructive.
But what's kind of magical in Game of Thrones is that the intimate scenes also melt your
heart and bring you closer to these creatures
that should be, you know, burning your face off.
Okay, so I should admit that I actually just used
this whole dragon thing to talk to this lady
from Game of Thrones.
This whole thing was this thing.
Her name is Paula Fairfield,
and she makes all the dragon noises for Game of Thrones.
Oh, she makes the dragons?
Right.
What did you ask her, I guess, is a really good question.
What did you want to know?
Well, I wanted to know, Well, I wanted to know.
I wanted to know, like, how does she make these sounds?
And it was really interesting, because, you know,
we're talking a little bit about how dragons
are composite creatures.
And she basically uses composites
to make these noises.
Oh, yeah, yeah.
Yeah, absolutely.
She takes noises from birds.
Reachy shrieky bird sounds.
Insects.
Different kinds of reptilian recordings and stuff.
Is it always the scary animals?
Well, depends on what dragon that she, you know,
which of the dragons that she's trying to actually
create a performance for.
I have sounds I might choose simply by
certain personality traits that I might want to push forward.
So in the case of Drogon.
So on the show, there's Daenerys,
who's this dragon queen and she has three dragons.
And one of them is named Drogon.
And she named that dragon after Cal Drogo, her hot, late husband.
So Drogon is like her lover.
We have to go home. He kind of has like a very affectionate, sensual relationship with her.
He's whistling at her all the time.
He's looking at her butt and going, oh, baby.
Oh, my poor sweet thing.
Does it hurt?
And so in order to kind of push forward this sort of like dragon sexual tension, I guess,
she uses the sounds of two giant tortoises, you know, mating.
Giant tortoises? What does that sound like?
Well, um, you know, I'll just play it.
Whoa. Oh, whoa. The groan of the male actually became with some work and you know, adjustments and stuff
became the source, the basis for Drogon's per with her.
With Daenerys.
How far did you carry me?
Drogon, we need to return. My people need me. The funny thing about the Purr with Drogon was watching people watch it and giggling
when they heard it, but not really knowing why. And to me, it's because it had that essence,
that kind of sensual sexual essence, that person.
So yeah, now I use from all kinds of things.
And I also used for dragonfly wings
to make that kind of funny flutter of the thorns
that's moving, like especially on the end of his tail
this year, as he moved through, there was like a chitter
and that was like dragonfly wings.
Dragonfly wings? Yeah. Really?
I was wondering if you ever had a question about dragons that you would like to have answered.
You know, no, it's curious because I think the thing that differentiates the dragons from
creatures and makes them slightly otherworldly is the fire thing. Where did the idea for that come
along? That's a good question.
Yeah, where did that come from? Well there are many theories about that.
Actually I took that question back to Adrienne Mayer. The one that I like is
connected to the devastating weapon called Greek fire. Which was this
unquenchable fire. It can't be put out by water, in fact it burns in water. And so
it was a naval weapon and I believe that scholars have found
that some of the nozzles for blasting Greek fire
were shaped like dragons, so that the boat looked
like it had a dragon on board breathing
fire at the enemy ships.
Oh, that's so cool.
Just stories of they had dragons that
breathe fire would make it back to Northern Europe.
That's the best theory I've heard.
Oh, that's interesting.
So it's like if the dragon is a composite
of all the things, creatures that have scared us,
now we're part of that composite.
It's our technology.
Now it becomes part of the creature that frightens us.
Thanks, Tracy.
You're welcome.
Who is...
What is, uh...
What is... Ah, uh, buh-buh-buh-buh
Ah
Who is...
Ah
Ah
Anything coming to mind?
What is...
Say something.
Hurry.
It's a fedora.
I should have known that.
You should have known that. All right, we're gonna take a break.
Hey, this is Latif again.
If you are enjoying this Radiolab Questions hour,
I got something to tell you, which is that we have a new t-shirt that it is available
to new members of the lab, which is our membership program.
And it says, get ready for a drum roll, digga digga digga digga digga digga.
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Radiolab.
And we are back.
With more questions.
Next one comes from...
Producer Rachel Cusick. -♪ Cusick. -♪ we are back. With more questions. Next one comes from producer Rachel Cusick.
So this question comes from Liam Hamburger from Denver, Colorado.
I was browsing memes on my Instagram feed and there was this meme where the picture
was of a husband and a wife trying to go to sleep.
The wife was looking away and she was like looking irritated and the husband was looking
like this kind of confused on the outside of bed and the caption was her
He's probably thinking of other girls and then him. I wonder her about milk from the same cow twice
What do you say under what? Yeah, so he said I wonder if I've ever bought milk from the same cow twice
So if I go to the store I buy a gallon of milk and then I go back maybe a week later
I get another gallon of milk. What are the odds that the same cow is in both of those gallons of milk? I see
I
Would say the answer is almost certainly yes a hundred percent. That's our Benjamin
He's a math professor at Harvey Mudd College in Claremont, California
100%. That's Art Benjamin.
He's a math professor.
At Harvey Mudd College in Claremont, California, and I'm also a mathemagician.
And how is he so sure that it's 100%?
Well, according to Art Benjamin, it all comes down to, uh...
Probability, statistics, and dare I say, calculus.
So take a farm like Dale's here.
Hey, here we go.
My name is Dale Mattoon, pine hollow dairy.
Dale has about a thousand cows.
And 20 at a time, these cows walk into a milking parlor.
They line up, it looks like a wishbone.
All day and all night long.
And they get hooked up with these black rubber hoses.
The air you're hearing every once in a while is the guy putting a machine on a cow.
When he hits the button, it turns on the vacuum and then he pumps the milk out of their udders
into this big hose along the bottom of the floor.
Running through the hose, down into this line.
And it's meeting up with all the milk from all the other cows.
Milk, milk, milk.
And then it goes from that room into another room where it gets cooled down.
This is the milk out.
Put your hand on this pipe.
Oh my gosh, it's cold.
There's condensation on it.
Very cool.
Once it's cooled down, it goes into this rocket ship looking thing outside called a
milk silo,
where all the milk from Dale's farm is just hanging out together.
The silo gets filled up and up and up and up until it's full.
We're sending out over 8,000 gallons of milk today on a tractor trailer.
This truck comes along, picks up that milk, and it stops at another farm and another farm
and another farm until that truck is full.
Right full.
Goes to the processing plant. And once you're at the processing plant, all that milk is just mixed around even more with
milk from all the cows in the region.
And...
One second.
Look, I still have my back of the envelope that had the calculation here.
Here is where the math comes in.
There are about 90,000 drops of milk in a gallon and oh, I don't know, 100,000 cows
who are contributing to a particular processing plant.
When you run the odds of a drop of milk from any one cow getting into any particular gallon,
That's probably the case.
Every gallon of milk contains most of those cows contributing.
And here's the thing, in one drop of milk, you could probably have a bunch of different
milk molecules from a bunch of different cows.
And so one glass of milk might have, you know, thousands, maybe hundreds of thousands of
different cow molecules in my glass of milk.
Wow.
That's crazy.
Oh my gosh.
So going back to Liam's original question, our argument is that when you're drinking a glass of milk, there's like so many different bits of milk from so many different cows.
Then it's probably the case that after just two glasses of milk, you're almost certain to have a cow that was represented in both of them.
So you're bound to run into at least a little bit of one of those 100,000 cows again.
The point being that every glass of milk has, you know, has thousands and thousands of different
cows contributing to it.
A little bit of 10,000 cows in every glass.
In every glass of milk.
I love that.
I don't know that I do.
No, it's great.
It's like you're enjoying the collective efforts of this entire species almost.
No, no, I think it should be the product of one or two cows
whom you can picture in your head and maybe pat on the nose.
Thank you, you could say.
Yeah, I don't know. I'm with both of you.
I feel like it weirds me out, but I also think it's kind of cool at the same time.
Well, you know, come to think of it, what happens if you drink a glass of milk in New York,
get on a plane, fly to Atlanta, then have another glass of milk?
Are you getting the same 10,000 in each glass or are they different 10,000s?
Yeah, so I tried calling around a little bit to answer that question
and it seems like no one really wants to pay to ship milk that far.
And so basically a different processing plant might mean a whole different group of cows.
If you really want to figure out exactly which plant your milk is coming from,
you can go to where is my milk from?
com really yeah, and
You input the little code on the top of your carton and see how often that number comes up again each
Processing plant has its own code
Thank you Rachel, thank you and just a big thanks to dairy farmer Dale Mattoon over at Pine Hollow Dairy
Are you a big milk drinker?
Oh yeah.
How often do you drink milk?
Oh, I have my cereal in the morning, I have a glass or two for lunch and a glass or two for dinner.
Probably two glasses each meal.
If I don't drink milk, I don't feel good.
Like if I go away on vacation and a lot of times you go to a restaurant...
The cow gives milk.
Cartons and cartons of milk. How now, brown cow?
How now, brown cow?
How now, brown cow?
How now, brown cow?
How now, brown cow?
How now, brown cow?
How now, brown cow? How now? How now?
How now? How now? How now? How now? How now?
Alright, this next one came from a couple.
Hello?
A married couple. Hello, is this Marie?
Yep.
This is Matt. Kilty calling from Radiolab. How are you?
I'm good, thanks. I have you on speakerphone and Zach is right here.
Oh, hey Zach.
Hi Matt.
How's it going?
Good.
Good.
So, Zach and Marie, it was years ago actually they sent us an email about what I think is like one of the most confounding, perplexing, mysterious devices that you can find inside anybody's home.
Okay, so the microwave. I guess what I'm wondering is how, one, why were you microwaving peppers?
And two, do you remember the moment this happened?
Oh, I know what it is. I know exactly what happened.
Okay, so quick scene set. Portland, Maine, a kitchen around dinnertime.
I think we were like cooking a tomato sauce.
Zach was on bell pepper duty.
Trying to take a shortcut, stick them in the microwave to make them a little warmer soft or something.
Then I said, oh, Zach, don't put those in the microwave. They'll spark.
And Zach was just like, you're crazy.
I watch it. I don't believe you at all.
And he's like, no, no, no, no.
I remember seeing it as a kid.
He said there was a couple of times her mom put some peppers in a microwave and they sparked.
Yes.
My first thought was that my memory was wrong.
That's what I thought. It was that your memory was wrong I'd like there must have been a piece of metal in the microwave
And you just don't remember that and that's what was sparking up because vegetables wouldn't do that
And this is going back and forth and yes and no and sparks and nothing until I think it was like we have the
we have the ability to find this out and
prove this wrong
So that was like five years ago in the past so we decided that we would actually do our own
experiment in the present to get to the bottom of this. Do green peppers spark in the microwave?
Maserati. First things first, I actually went and bought a microwave. Hey how's it going? Off a guy
on craigslist. Oh yeah so uh 50 bucks? 50 bucks. 50 bucks, alright. Our baby. Then carried it like, uh...
Alright, alright.
Eight blocks back to work.
Holy sh**.
Also, bought a bunch of groceries
because we're gonna do more than just a peppers test
and for reasons I'd rather not get into,
uh, decided not to start with the peppers.
Baby carrots.
Baby carrots with little carrots?
Yeah.
Producer Anna McEwen.
So we're gonna catch it.
Really?
Yeah. Couldn't tell. Oh. Carrots? Yeah. Producer Anna McEwen. So we're gonna catch it. Really?
Yeah.
Couldn't tell.
Carrots?
Okay.
And as the great Ronco says of infomercial fame.
I don't know who the great Ronco is.
Great Ronco.
Set it.
Set it and forget it.
Alright, two minutes.
Let's see what happens.
Hi.
And all of a sudden.
Oh my god. Alright, two minutes, let's see what happens. Hey.
And all of a sudden...
Oh my god! This little yellow spark just shot out from one of our slices of carrots.
That was crazy.
This little spark.
Oh yeah, there!
You see another one?
Yeah, I just saw a little flash.
Wow.
A little tiny spark.
Mmm, carrots. Mmm, carrots. Wow. A little tiny spark. Ready.
Mmm, carrots. Mmm, carrots.
Okay, next!
Kale.
Set it and forget it!
This is where it gets a little crazy, because the kale...
There!
Same thing.
What?
Boom, boom, boom, sparks.
Smoke, it's a smoke. Let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's have it, let's. Smoke. It's just smoke. Let's have a smell, smell, smell, smell, smell, smell.
Jesus.
Delicioso.
That is smoke.
We're going to try blueberries.
Ready?
Set it.
And.
Set.
Set.
Set.
Whoa.
Oh, it's on.
We started to draw a bit of a crowd in the studio.
What?
Why was electricity coming out of the blueberry?
Up next.
Crepes.
Crepititos.
Crepes.
Crepetitis. Creepininis. Ready? Ready. Crepes. Crepitos. Crepetitis.
Creepininis.
Ready?
Ready.
Time cook.
You set it.
And we're good.
Whoa!
Oh my God!
Look at it go.
All right, what's up next?
Okay.
Jumbo Franks.
Shit, I got turkey Franks.
Set it.
Spread it.
And we're good.
Oh, oh, I saw one.
Oh.
Oh my God.
Okay, pepper. You set it! Oh. Oh my gosh. Um, okay. Pepper?
You said it.
Oh!
Oh my god!
Okay, both red and green.
Bell peppers. Green was crazy.
Hey, Pepper!
We also threw in diced up tomatoes, pears, decked with gourd.
Are we gonna get fired for this?
And also, a flaming lip city.
There we go! Who needs fireworks when you've got a CD in the...
This is crazy!
Stop, stop. Alright, we're gonna stop.
Yeah, cause I don't want to... Yeah, is it gonna... It looks like it was on fire.
Is it smoking in here?
Yeah, it's definitely smoking.
Oh, that smells really bad. Alright, let's take a break.
Everyone else... Oh, god.
Yeah, we want to keep the door open.
What did you say to Marie after the peppers sparked in the microwave?
I think I was, I don't know, I was probably speechless.
And Marie, did you say anything in return? Um, probably something to the effect of I told you so. So pepper spark in the microwave, that was settled.
But then there was the debate about...
Marie doesn't believe my understanding of how microwaves work.
Why?
Maybe it's just that pepper has a lot of moisture in it.
Zach, maybe it's you put the pepper in the microwave, all that water gets really hot.
The skin acts as like tinder and that lights on fire quickly.
But Marie...
We always have peppers in our house.
And I think that the green ones taste a little bit metallic.
Her it's like, maybe these peppers just have like some little bit of metal
in there that's sparking.
Yeah.
So your next step to find the appropriate scientist.
Oh yeah.
I'm definitely going to try and put this case to bed.
Yeah.
Just give us one moment.
So ended up tracking down this woman.
Is it Caroline or Carolyn? Is it?
It's Caroline.
Caroline, okay. Her name is Caroline Ross.
I'm a professor in the Department of
Material Science and Engineering in MIT.
An experienced microwave-er?
I've done it with, um, with roast potatoes.
Oh, you've seen sparks.
Yeah, I've seen sparks from roast potatoes.
Huh. Alright, so yeah, maybe we should just like do... So, I asked her, in the seen sparks. Yeah, I've seen sparks from roast potatoes. Huh.
All right, so yeah, maybe we should just like do like...
So I asked her, in the case of the peppers or, you know, the roast potatoes or the grapes,
like all the different food that we tried, like what happens in a microwave that makes
the food just go like, pfft.
Right.
So let's say I got some pieces of pepper, put them in the microwave, I press start,
like what happens next? Okay, so there is a gadget in the microwave oven that produces the microwaves, it's called
a magnetron, and it's an interesting thing in itself.
Okay, quick side note, it's basically like this hunk of metal that makes the microwaves,
but Caroline told me this really cool thing, which is they actually used to be used in
World War II for radar?
That was in the 40s, and in 1945 there was an engineer at Raytheon who was working on
these devices and he found that some candy bar he had in his pocket got hot.
He was like, oh, this cooks food and so eventually a magnetron got thrown inside of a metal box
and thus was born the microwave.
So it's an interesting thing in itself but it produces a beam of microwaves and they bounce around inside the microwave oven, moving at the speed of light.
And what are they, are they pounding into the pepper? Or maybe not pounding, but like shooting into the pepper?
They're being absorbed. Yeah, they're being absorbed. And these microwaves, they are the right kind of frequency to cause the molecules in food to oscillate back and forth.
You put a pepper in there, so the pepper's got a lot of water in it, it's got other things as well,
and those molecules start absorbing the microwaves and dancing back and forth and
hitting each other and heating up, and then that bit gets even hotter and even hotter,
and eventually it could burst into flames.
But that is not what we're seeing with our pepper
or any of the food in the microwave.
It's not.
No, because as Caroline explained to me,
a flame is very different than a spark.
So one thing to keep in mind is that
the pepper is fairly conductive.
It's got all this water in it.
We know that water can conduct electricity.
And the water isn't pure. It has a lot of salts dissolved in it,
minerals, things like that.
Okay.
In that sense, it's a little bit like a piece of metal.
Metal, as we know, absorbs microwave energy rather well.
As we all know.
Yes.
Okay. So let's say you get these pieces of pepper in a microwave and they're, you know,
dented, dented, dented, dented, dented, dented.
heating up. Now the thing is, the microwave, like the wave itself...
It has an electric field which oscillates back and forth at rather a high frequency.
So when these microwaves shoot into these pieces of pepper, what happens is this electricity starts...
Swishing back and forth... Through the bits of pepper. So there's a current flowing. And as more
microwaves are absorbed in these bits of pepper, you can get quite big currents.
Currents so big that they start to create this electric field around the
food. And that electric field builds up and up and up and eventually it's big
enough to cause the air to glow around the food.
Because now there's actually electricity coursing through the air.
Like a fluorescent light bulb.
And Caroline says at this point you can start to see
these glowing balls of gas floating.
It's actually the air turning into plasma.
Now, back in the center of the microwave are our little bits of pepper, where there's still
this electrical current swishing back and forth
through those bits of pepper.
And if you have sharp corners, like the actual corner
of a pepper, even on the skin, like these tiny microscopic
little points, the electricity in the pepper,
the electricity in the air, can get
concentrated at those sharp corners like a lightning rod.
And at those corners, the electricity
will just build and build and build until...
Why?
Why?
You get a mini lightning bolt.
Why?
Why?
And then Caroline said everything in the microwave just sort of calms down.
Until the electric field builds up again and it does it all over, letting loose these mini
lightning bolts.
So it's a very dynamic process.
You've got things being ionized, you've got things recombining,
you've got charge flowing, you've got light being emitted,
things get hot, there's a big current flowing,
all for that tiny fraction of a second.
A lot of quantum physics in there.
Ha ha ha!
And then we hear a little ding, and then... Yep, we're done. And then we hear a little ding.
And then we're done.
And then we're done.
But I just had one last job to do.
How you two doing?
Again?
Good.
Okay, all right.
So I called up Zach and Marie, told them everything I learned about their sparking pepper.
And then even though both of them didn't have the exact theory, like Zach was right, water
is an important part.
Marie was kind of on to something with this metal thing. Yeah.
It feels like it's almost like a little bit of like a marriage of sorts, pardon the pun,
between both your ideas that kind of is what is happening inside this black box.
So yeah.
So I think we were, we had some of the elements there.
Yeah.
Yeah.
Yeah.
So that's about it.
Okay.
Excellent.
Oh, there was one thing that I actually thought was kind of interesting.
In all these questions we were getting in, there was like this tiny little pattern of
married couples sending us in arguments that they got in.
There was one couple that was like, they were arguing about the nutritional value of microwaving
a potato.
There was another couple that sent in a very long email about how they'd been debating
about how we perceive color.
We've actually had a similar dispute.
Yes, over color.
The couch.
Oh, yeah
There was some sort of like grab tone that I thought was green and you thought was brown gray
I'm great. Okay. Yeah, I think I yeah
we have that couch for like between different houses and different combinations for probably like five or six years and maybe seven years ten years and
five or six years and maybe seven years, ten years. And I was yeah I always thought it was gray, it still do, but apparently you and your sister thought
it was green. You like lived together for years and just never realized you're
seeing something completely different. Like what do you mean our green couch?
I have no idea you don't have a green couch.
Producer Matt Kilty
Why do humans have two feet? When are we going to be able to fax a pencil?
Little waves go through the little headphone strings.
What is the world all about?
What are we doing here?
What is happening after this life?
Where do we go from here?
I have no idea.
Why?
Why? Where?
I want to know.
I am crazy.
I don't know.
Who knows?
Let me know. Bye!
Hi, this is Danielle and I'm in beautiful
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Radio Lab was created by Jad Ebomrod and is edited by Soren Wheeler.
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