Daniel and Kelly’s Extraordinary Universe - What is a space hurricane?
Episode Date: August 31, 2021Daniel and Jorge swirl their minds together into a stormy mix of puns and physics and tackle this spacey topic. Learn more about your ad-choices at https://www.iheartpodcastnetwork.comSee omnystudio....com/listener for privacy information.
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December 29th, 1975, LaGuardia Airport.
The holiday rush, parents hauling luggage, kids gripping their new Christmas toys.
Then, everything changed.
There's been a bombing at the TWA terminal.
Just a chaotic, chaotic scene.
In its wake, a new kind of enemy emerged, terrorism.
Listen to the new season of Law and Order Criminal Justice System
On the IHeart Radio app, Apple Podcasts, or wherever you get your podcasts.
My boyfriend's professor is way too friendly, and now I'm seriously suspicious.
Wait a minute, Sam.
Maybe her boyfriend's just looking for extra credit.
Well, Dakota, luckily, it's back to school week on the OK Storytime podcast, so we'll find out soon.
This person writes, my boyfriend's been hanging out with his young professor a lot.
He doesn't think it's a problem, but I don't trust her.
Now he's insisting we get to know each other, but I just want her gone.
Hold up. Isn't that against school policy? That seems inappropriate.
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Hey Jorge, have you ever been in a hurricane?
Technically no.
Really, Panama doesn't get hurricanes?
I think we felt the effects of them, but none of them have technically touched us,
except maybe like one a long time ago.
Well, then maybe you'll get your chance here in L.A.
Really? Los Angeles gets hurricanes?
Not very often, but the occasional Mexican hurricane is strong enough to make it all the way up here.
Ooh, I like my urakanes, a little spicy.
Yeah, there's nothing worse than like a bland hurricane with just boring 100-mile-an-hour winds.
Hi, I'm Horham, a cartoonist and the creator of PhD comics.
Hi, I'm Daniel. I'm a particle physicist, and I've also never been in a hurricane.
You've never lived to tell the tale.
That's right.
Never been like one of those reporters standing in the deep water with the winds blowing all around them.
I would have been out of there much sooner.
You'd never been in a science hurricane?
Like a flurry of scientific discovery and activity?
Like a wind of knowledge blowing over everything?
It's definitely felt like a thunderstorm now and then with some of the conflicts and the egos.
But no, never officially a science hurricane.
You've never upgraded that brainstorm to like a brain hurricane.
Maybe I'm just trapped in the eye.
But welcome to our podcast, Daniel.
Jorge explained the universe, a production of iHeard Radio.
In which we explore the swirling mysteries of the universe,
we rain knowledge down upon you and try to blow confusion away
with 100 mile an hour winds of silly jokes.
In our podcast, we tackle the biggest, deepest, most dramatic questions of the universe.
We don't shy away from any and every topic,
and we find some nugget of mystery or knowledge,
and we break it open for you and try to explain.
Explain it with a few dad jokes.
That's right.
We try to sweep you off your feet with giant winds of corny jokes and serious knowledge about the universe and everything in it.
Because it really does make us spin.
I mean, this universe we live in is fantastic.
It's beautiful.
It's wet.
It's wild.
It's crazy.
There are so many things we need to understand.
And not just at the most fundamental level.
As a particle physicist, my job is to break the universe down to the very, very smallest bits and understand.
the deepest, most fundamental nature of the universe.
But even if we did that, it doesn't mean necessarily it would help us
understand the world around us.
You can't go from string theory to predicting weather.
So sometimes there are deep mysteries worth tackling
that are right around us at the same scale as our lives.
Yeah, because I guess the universe does seem a little unpredictable sometimes.
I mean, it's pretty chaotic out there.
Even though it sort of seems nice and calm here,
there are parts of the universe that are pretty crazy
and there's a lot going on in there.
Yeah, we talk a lot on.
podcast about how complex phenomena arise from really simple rules and simple objects.
From just a few particles, you can make everything that anybody has ever touched, tasted,
or eaten.
And that includes really weird stuff like people and hurricanes.
It's amazing what this universe has cooked up for us out of a few basic elements.
And some of it is really quite complex and very, very difficult to predict.
Some of it we just have to look at in wonder.
Yeah.
And so here on Earth, we have weather, which is pretty chaotic.
Although I feel like we have done a pretty good job in meteorology of predicting the weather
a little bit or at least forecasting the weather and knowing when and where hurricanes are going.
Yeah, I feel like comedy hasn't really caught up with progress in weather science.
It used to be a standing joke that nobody could predict the weather.
But these days, they're actually pretty good at it.
I find myself relying on my little weather app to tell me if it's going to rain today or tomorrow.
Maybe that's just easy in Southern California because it says,
never rains. Yeah, you just need comedians to predict the weather. You know, just give them a
sharpie and they'll know exactly where the hurricanes go. Maybe there's wisdom in the crowd,
right? Get 100 comedians in a room and ask them where the hurricane is going to go and we'll
see if on average, they're right. Yeah, and if they bomb, maybe that will, I don't know,
dissipate the hurricane or something. Or maybe all the arguing will create a hurricane of shouting
or a hurricane of egos. Or all the groaning from the bad jokes will, I don't know,
blow a lot of hot air and blow away the storm. Yeah, but meteorologists are still the butt of
jokes about how they can't predict the weather, even though I think they are doing a pretty good
job these days. Yeah. So weather here on Earth, which is kind of a little bit crazy, sometimes
chaotic, a little bit unpredictable still sometimes. So the question is, does that happen
in other parts of the universe? Is there an equivalent of weather out there in space, maybe in other
planets or in between planets or out there in the galaxies or between galaxies? And as usual,
we're wondering if the patterns we see here on Earth are particular to Earth or if they are universal.
This little parochial tribe of humans trying to crack big questions about the universe,
having only looked at the way things work on Earth, we're always faced with this question
of whether we can take the things we've learned here and generalize to the rest of the universe,
or if we live in a really weird, unusual corner and the things that happened here only happened here,
like people and ice cream Sundays and all that kind of stuff.
So are hurricanes a universal phenomena experienced on every planet around the universe?
Or are there something that space tourists will come to Earth just to experience?
So today on the podcast, we'll be asking the question.
What is a space hurricane?
So I feel like we're asking like, are there hurricanes in space or can you make a hurricane in space?
or what's the equivalent of a hurricane in space or all of the above?
It sounds like a pitch for a movie on the Discovery Channel.
You know, it sounds like in the category of Shark Tornado, you know,
take two cool words and put them together.
Right, yeah.
It's like if the Weather Channel and the Discovery Channel teamed up and made a special movie,
Space Hurricane.
With sharks.
Space Sharknato Hurricane with dinosaurs in it.
I'm sure somebody in a writer's room has already thought that idea up and discarded it.
Thank God.
And then you throw like a bachelor in there and also a home remodeling project.
And you've got Emmy Award winning television right there.
Flip your house and get married using a space hurricane filled with sharks.
That sounds like a great show.
And dinosaurs also.
And dinosaurs.
Everything can happen here on this show.
But yeah, that's an interesting question.
What is a space hurricane?
And this sort of relates to that question we were asking about space weather.
Like, is there the equivalent of weather out there in space?
and with all that gas and dust maybe out there floating?
Yeah, and we're interested in whether these patterns we see in hurricanes here on Earth
are replicated maybe in other forms, maybe not in water, maybe not in air,
maybe in other objects out there in space and other parts of the universe.
So that when the aliens come, we will have something to talk to them about.
Well, as usual, we were wondering how many people out there had heard of a space hurricane
or had any idea of what it is.
So Daniel went out there into the wilds of the internet
to ask people what is a space hurricane
So if you live in the wilds of the internet
And you would like to answer random questions
I sent you with no opportunity to prepare
Please write to me to questions at Danielanhorhe.com
I personally live in the plains of the internet
It's a lot of comma there
There's no Twitter or Facebook
Just a gentle wind of Wikipedia information
Every time you say the wilds of the internet
it makes me feel like a rugged explorer risking my life to go out there and gather information
in the name of science.
You mean reaching out to strangers on the internet?
It is totally safe.
These are our listeners, man.
They are nice people.
I see.
That's all it takes to be your friend, Daniel.
Just be willing to listen to you talk about physics.
Absolutely.
Anybody willing to listen to this podcast is definitely my friend.
All right.
Well, think about it for a second.
If someone asks you, what is a space hurricane?
What would you answer?
Here's what people had to say.
I assume it has something to do with, well, space weather and possibly solar wind or stellar wind.
I'm not entirely sure.
Maybe there's hurricanes.
I don't think it would count as a hurricane on the sun or a hurricane on, say, Jupiter because they're not quite space hurricanes.
Maybe it's some sort of hurricane to do with the curvature of a space, maybe approaching a black hole, something along those lines.
I have no idea what a space hurricane is.
I would have to guess that it has something to do with solar winds.
It sounds like a swirling mass of, or if it's in space,
it's probably something like stars or something else with a lot of mass.
When you look at a hurricane in Earth, it sure looks like a galaxy.
So maybe a spiral galaxy is a space hurricane.
I can imagine a space hurricane is created by the solar winds.
So like there's a big outburst from the sun that's,
creates space weather, and if it's a really extreme outburst, then it might create a space
hurricane. But I can also imagine movement of stuff in space itself might create vortexes or
space hurricanes, hope you will. All right. I guess some pretty interesting answers here.
I feel like people sort of thought about a hurricane and what it looks like in pictures,
this swirling mass of stuff, and then they try to, I don't know, project.
back that into space. Like, what would that look like in space or in other planets? Yeah, it's some
great examples of generalization. Like, this is real physics in action here. I love seeing
people take this idea and wonder whether or not it could exist in other forms. Awesome. Especially
the one about a galaxy being a space hurricane. Very cool. Right. Yeah. Is the galaxy technically a
space hurricane? Like, they look kind of the same as a big flushing toilet or swirling
disc, right? That's kind of what a hurricane is and that's kind of what a galaxy is. Yeah, we'll get
into it, but a hurricane actually is a low-pressure center, right, where things flow out from
the center. And a galaxy, of course, is very high-pressure center. It's really the densest spot
with all the forces pulling towards the center of the galaxy. So the mechanisms are something
different, but you're right, they do look kind of similar. It's an anti-hurricane, maybe.
It'd be awesome, though, to have a hurricane where it's raining stars instead of water droplets.
That's pretty meta. That would be, that sounds really dangerous. You would definitely not be a
weatherman standing there for very long.
Yeah, what kind of hurricane proofing do you need when it's raining stars?
That sounds like another great show on the Discovery slash Weather Channel.
Surviving extreme space weather.
Reigning stars.
But let's get into it then.
I guess step us through here, Daniel, first of all.
Let's tackle one word at a time.
So a hurricane, what is that technically here on Earth?
Like, how do we get hurricanes and what technically counts as a hurricane?
And is that the right name for the weather phenomenon that most people
think of when they think of hurricanes. I was really surprised to learn that you give the name
hurricane to a particular type of storm that appears all around the world, but you only call it
a hurricane if it appears in particular places in the Atlantic or in the northeastern Pacific. So the most
general phrase is a cyclone. It's this kind of storm you get over the water, but you only call it
a hurricane in various parts of the world. It's like the naming committee couldn't agree on what
to call these things. And so they broke up without like a global agreement for what to call them.
I see. Now, is this like a convenient naming, you know, scheme? Or is this just like out of the
history of how like, you know, people who lived here called it a hurricane and people who lived
over there call it a typhoon? You know, is it like pop and soda and coke? Or is it like, you know,
scientists were like, okay, we'll call these, the ones over here, this and the ones over there,
and we'll call them that. No, there's really no difference between a hurricane in the Atlantic
or a typhoon in the Northwest Pacific
or a tropical cyclone in the South Pacific.
They're fundamentally the same thing.
The only thing that differentiates them is where they happen.
So the naming convention is just historic.
That's what we call those storms.
And then I think later people understood in more detail,
oh, these are really all sort of examples of the same thing.
I see.
But the technical term, the scientific term, is actually cyclone.
Yeah, exactly.
Which sounds like a killer robot from the future or something.
but it really just describes this sort of spinning storm that you get,
which is very typical, the kind of storm I think about when I think about a hurricane.
I see. So all hurricanes are cyclones, but not all cyclones are hurricanes.
That's right. Exactly.
So they're called typhoons in northwest Pacific and tropical cyclones in the South Pacific or Indian Ocean.
So what are the basics of this cyclone storm?
So it's the same all around the world.
And it's this phenomenon where you have a bunch of really warm water.
And so the water heats up the air that's above it and moistens it because the water is evaporating from the surface.
And then hot air rises, right?
And so the hot air rises over this warm spot in the ocean.
And because the air is rising, it causes this low pressure center because the air is leaving.
So other air sort of has to get sucked in.
So it sucks in air from around it, which then rises up and has to go somewhere and then spreads out.
So you get this pattern where,
air is getting pulled in over the water, rising up, and then spreading out. And that's the
basics of it. And if the earth wasn't spinning, cyclones wouldn't spin either. The way these
storms start to spin is just because of the spin of the earth. Right. It's due to the Coriolis
effect, right? That's right. As these winds blow outwards from the center of the storm, they start
to curve. And the reason is really cool is because, as you say, it's because of the Coriolis effect.
If you are standing on the equator, then you are spinning around the earth really fast, right?
You are going a thousand miles per hour.
The surface of the earth at the equator is moving a thousand miles per hour.
The surface of the earth at the North Pole isn't moving at all, right?
I mean, you're spinning in place, but you're not actually moving.
So what that means is that the closer you are to the equator, the faster you're moving.
And the closer you are to the north or south pole, the slower you're moving.
That's very cool as sort of to know, but it has an actual effect.
Because if you have air that moves from the equator up towards the poles,
then it's moving faster than the air is encountering.
And so it actually sort of drifts.
So, for example, if you're in the northern part of the earth,
in the northern hemisphere, air that moves up from the equator towards the north
is going faster than the other air.
So it actually sort of curves to the east.
So air that flows north from the equator curves to the east.
And air that flows south from the north pole is going too slow to
hatch up with the air it's encountering.
So it sort of flows a little bit to the west.
So you get this curving effect just due to the spinning of the earth.
Right.
So then the idea is that the warm air heats up the air above it.
That air gets kind of sucked up into the upper atmosphere.
And that draws in cold air, which comes in with some sort of spin or some sort of
kind of skewed to it, which then starts kind of the swirl of it, right?
And so you can make this mental picture in your mind of air getting pulled towards the
hurricane from the south curves to the right and air coming down from the north also curves to
its right and so everywhere as the air is getting pulled towards the center of this thing is
curving towards the right so then it becomes self-reinforcing and this whole thing starts to
spin but to me it's just sort of awesome that you could like prove that the earth is spinning just by
looking at hurricanes right or how toilets flush technically right like you don't need to leave your
house you can just flush the toilet I think that's
an urban legend, man. I think toilets flush the same way in Australia. Well, it depends on how you
design the toilet. Yeah, you're right. If you have a toilet that's like a thousand miles wide,
then maybe you're right. Yeah, that's what I mean. Isn't your toilet a thousand miles wide?
I don't know what you had for lunch, dude. It's just my particular need. That's a spicy hurricane,
my friend. But the amazing thing is that in the southern hemisphere, storms really do spin the other way,
because the same effect works the opposite way in the southern hemisphere. So if the air is
flowing from the equator towards the south, then it's going faster than the air it's encountering,
but now it's going to spin the other direction, right? It's going to spin sort of to its left.
The same deal. If air is coming from the south pole up towards the equator, right, then it's going
slower than the air that's spinning. It's going to curve to the left. And so you get storm spinning
the other way in the southern hemisphere. I think this is super awesome. Yeah, that's pretty cool.
And so I guess maybe a quick question is like what happens to all that air getting sucked up?
Does it just go up to the upper atmosphere and then dissipates or does it recycle kind of down and then helps to feed that hurricane?
Yeah, so you're right.
The cold air gets sucked in and then it rises and then it flows out in this sort of big shield.
And that's what you see sort of from space if you're looking at this hurricane that you get this like big spinning shield that sort of spins out away from the hurricane.
And so that's what these sort of these arms are.
These clouds and condensation formed from the air flowing away from the center of the hurricane and the upper atmosphere.
So a hurricane is actually like a 3D thing.
It's not just a swirl.
Like the air in the bottom is swirling inward, but the air in the upper atmosphere is swirling outwards.
Yeah, exactly.
And so it's this machine and it's all powered by the energy from the ocean.
And so that's why as the earth warms up and we get more hot spots.
and hotter spots in the ocean, we get more and more dramatic hurricanes.
And I guess it's due to these currents, too, because I guess you need warm water under cold air, right?
So as the warm water moves under cold air, then it creates these low pressure points.
Exactly. It warms up the air and the air rises.
And then you get this low pressure center.
So, you know, in general, the idea of a hurricane is this flow, this cyclic flow of the air and this low pressure center.
All right, well, let's get into whether or not something like that can happen out in outer space, maybe in other planets, or in our galaxy.
But first, let's take a quick break.
December 29th, 1975, LaGuardia Airport.
The holiday rush, parents hauling luggage, kids gripping their new Christmas toys, then,
At 6.33 p.m., everything changed.
There's been a bombing at the TWA terminal.
Apparently, the explosion actually impelled metal, glass.
The injured were being loaded into ambulances.
Just a chaotic, chaotic scene.
In its wake, a new kind of enemy emerged, and it was here to stay.
Terrorism.
Law and order, criminal justice system is back.
In season two, we're turning our focus to a threat that hides in plain sight
that's harder to predict and even harder to stop.
Listen to the new season of Law and Order Criminal Justice System
on the IHeart Radio app, Apple Podcasts, or wherever you get your podcasts.
My boyfriend's professor is way too friendly, and now I'm seriously suspicious.
Oh, wait a minute, Sam. Maybe her boyfriend's just looking for extra credit.
Well, Dakota, it's back to school week on.
on the OK Story Time podcast, so we'll find out soon.
This person writes, my boyfriend has been hanging out with his young professor a lot.
He doesn't think it's a problem, but I don't trust her.
Now, he's insisting we get to know each other, but I just want her gone.
Now, hold up.
Isn't that against school policy?
That sounds totally inappropriate.
Well, according to this person, this is her boyfriend's former professor and they're the same age.
And it's even more likely that they're cheating.
He insists there's nothing between them.
I mean, do you believe him?
Well, he's certainly trying to get this person to believe him because he now wants them both to
So, do we find out if this person's boyfriend really cheated with his professor or not?
To hear the explosive finale, listen to the OK Storytime podcast on the IHeart Radio app, Apple Podcasts, or wherever you get your podcast.
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Attention passengers, the pilot is having an emergency, and we need someone, anyone, to land this plane.
Think you could do it?
It turns out that nearly 50% of men think that they could land the plane with the help of
air traffic control. And they're saying like, okay, pull this. Do this, pull that, turn this.
It's just, I can do my eyes close. I'm Mani. I'm Noah. This is Devin. And on our new show,
no such thing, we get to the bottom of questions like these. Join us as we talk to the leading
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lack expertise. And then as we try the whole thing out for real. Wait, what? Oh, that's the
Right. I'm looking at this thing. See?
Listen to no such thing on the IHeart Radio app, Apple Podcasts, or wherever you get your podcasts.
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And you'll meet the team behind the scenes at Othrum, the Houston Lab that takes on the most
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We're talking about space hurricanes and whether or not those are actually a thing.
I guess they are a thing, Daniel, if we're asking the question, what is a space hurricane?
It must be a thing, right?
It'd be a short podcast if we were just saying no.
You can tell it because otherwise we would have titled this episode, do space hurricanes exist, right?
But here we are asking, what is a space hurricane?
So I think we spoil the little bit.
They do exist.
There are a thing.
But I guess the question is, how does that happen?
How do you get a hurricane in space?
Yeah.
So this basic mechanism that we're talking about can exist in other places, other places where you have something like air that can flow.
And then you have some source of energy to like pump into that to create this low pressure center.
And so you have lots of places.
actually in the solar system we know about and then probably in the rest of the universe
where you get similar structures that are forming not necessarily out of air and water droplets
but the structure of a hurricane turns out to be something we see all over the place really not
necessarily with water but maybe with other kinds of storms yeah exactly with other kinds of
storms you know around the solar system we have atmospheres with methane and all sorts of
other crazy stuff in them and so we can take the same idea of a hurricane and use it to understand
stand storms on other planets or moons.
I guess the other planets are spinning and they have some kind of atmosphere.
So why not, right?
They could have hurricanes too.
Yeah, exactly.
But wait, don't you need the oceans too, like the moving oceans and currents and things
like that?
Well, you really just need sort of like bands, right?
You don't necessarily need an ocean.
You just need something underneath it to provide the energy, something to power this thing.
And so, you know, you could have like hot rocks or other bands of denser gases.
You don't necessarily need a liquid ocean of water.
You don't need like the moving currents of water, right?
Because that's kind of why hurricanes move, isn't it?
Or is it just due to the weather?
Well, motion of the hurricanes on other planets we'll see
is a little bit different than it is on Earth.
So they don't necessarily crash into shores the way they do on Earth.
But they're definitely formed and they can be a lot more stable.
Sometimes these storms on other planets can last for hundreds of years.
All right.
Well, step us through here.
What are some of the interesting hurricane type of storms that we see?
see in other planets.
Well, sort of the most boring are the ones on our neighbor planet Mars.
Mars does have big storms on it.
And we don't understand them exactly how they work, but we have seen cyclones on Mars.
Mostly these things are dust storms.
And they're not as dramatic as the hurricanes on Earth, mostly because the atmosphere on
Mars is just a lot lower pressure.
You know, there's just not that much atmosphere.
So you don't get as many dramatic events like the winds in storms on Mars.
blow up to maybe 100 kilometers per hour, which is not nearly as dramatic as hurricanes here on Earth.
It's sort of like a slow motion, mild kind of hurricane.
Yeah, exactly.
But we are watching the atmosphere of Mars pretty carefully.
We have a lot of satellites in orbit around it.
And in April of 1999, scientists saw this huge cyclone near the North Pole of Mars.
It was 1100 miles wide.
It had these big cloud bands in it spun around and it dissipated after several hours.
It was the Mars Santa Claus who was like, no, no, no, no, that hurricane here in Mars.
Yeah, and it's not something that we have seen since, and we are watching the Martian atmosphere.
So it's something we're looking to understand because we're always wanting to get a better understanding of what's in the atmosphere of Mars and what the dynamics of it are.
But, you know, the same basic idea, you know, something must have heated up the center of this thing to create the rising air from the center, which flew outwards and then spun because of the spinning of Mars.
What about other planets? Have we seen cyclones in like Saturn?
We have. Saturn, of course, has an amazing storm.
There's this storm on its north pole, which is in the shape of a hexagon.
We did a whole fun podcast episode about like, what is going on there?
How do you get a hexagon shaped storm on the north pole of Saturn that's been there for a long time?
And it's like 25,000 kilometers wide.
So like, this thing is a monster.
But not just its north pole.
It has these spots on it that are these like massive planet circling storms.
They don't last that long, but they can impact the atmosphere and the temperature of the planet for quite a while.
So there are these great white spots on Saturn that scientists think have the same fundamental mechanisms as hurricanes here on Earth.
Interesting.
Now, because I guess Saturn is sort of a gas planet, right?
It's mostly gas.
And so it must have all kinds of currents and layers of gas swirling and bands and things.
like that. Exactly. And so you have these layers. And so when a deeper layer has a hot spot in it,
it can create a low pressure center in the band above it, right, which creates exactly the same
effect as we see here on Earth. And so we don't understand a lot of the mechanisms of the internals
of Saturn, mostly because we haven't had a chance to probe it. Remember Cassini did it to like
death dive into Saturn and gave us some measurements about what was going on inside of it. But mostly
Saturn has been unexplored. So we have to just observe it from the outside. And that's why asking these
questions like, do we understand how the storms form? Do we understand the mechanisms of it? Can we
extrapolate from the things we have learned on Earth is a really good way to try to build a model of
what's going on in Saturn? So we can ask if it makes sense or if there are surprises inside.
Interesting. Now, I hear that Saturn has a record for the longest continuous storm in the solar
system. Yeah, that's right. Not necessarily just a hurricane, but there was a thunderstorm on Saturn
that lasted for over eight months.
Cassini observed it back in 2009,
and we measured the strength of this thunderstorm
by measuring the radio emissions from its lightning.
Every time you have a thunderstorm, you have lightning.
And lightning, of course, is an electromagnetic phenomena,
which means it creates radiation.
I mean, what you're seeing is radiation from the lightning.
So there's also radiation in other frequencies of light,
including the radio.
So you can detect thunderstorms in radio waves.
That's why it interferes with radio, of course.
And this one was 10,000 times stronger than storms we see here on Earth and lasted for eight months.
So it's pretty dramatic.
So really hunker down if you're in a storm on Saturn.
I guess technically that wasn't a cyclone.
It was just a big thunderstorm.
Like clouds crashing into each other.
Yeah, exactly.
That was not a cyclone.
All right.
What about the big guy in our solar system?
Jupiter.
That must have a lot of cyclones because it's a big gas giant.
Exactly for the same reason.
And it has the biggest cyclone humanity has ever discovered.
great red spot is basically a hurricane. This thing, we did a whole episode about it. Remember,
it's been seen by astronomers for hundreds of years. And so we know that this storm is at least
350 years old. It also boasts the fastest winds in the solar system. And so this is
essentially a huge hurricane on another planet. It's visible from Earth. Right. And it's read for
some reason, right? We talked about it in a podcast episode. Yeah, although it's a really fun mystery. And
So dig into that whole episode if you're curious about why the Great Red Spot is Red
and also why the Great Red Spot is shrinking.
Yeah, check that out, please.
And something else interesting about Jupiter is that it has a lot of cyclones, but they're
not regular cyclones.
Yeah, Jupiter turns out has cyclones, but mostly it has anti-cyclones.
Anticyclones are not like antimatter.
It's not like if a cyclone meets an anticyclone, they annihilate.
It's a cyclone that has the opposite sort of structure because it has a high cyclones.
high pressure center instead of a low pressure center. And so the winds actually go the opposite
direction. Like on Earth, if you have a cyclone in the northern hemisphere, it spins counterclockwise.
If you had an anti-cyclone in the northern hemisphere, it would spin clockwise. And so on Jupiter,
most of these things are actually anti-cyclones. Interesting. Meaning like it's a high pressure center
somehow. Like maybe the bottom layer is colder and then that pushes air away somehow? Yeah,
have to have like the air sinking in the center exactly like if you have a cold spot then it's
pulling the air in and sinking it down towards the center and so that creates a pattern of winds and
it also spins again because of the spinning of jupiter so again this is something that's like
on the forefront of our knowledge space meteorologists and planetary scientists are trying to understand
the dynamics of jupiter's atmosphere and that's a tough thing to do from so far away with very
limited instruments. So it's a tough science. Yeah, I can imagine. It's hard enough here to monitor
the weather. Imagine doing it millions of miles away. All right. Well, what about other planets
in the solar system? What other interesting cyclones can we find? Yeah, Neptune has a great dark
spot. It seems like on other planets, we call these things spots, right? I guess just because that's what
they look like from space. But I feel like it undersells them. It makes it feel like a stain in your
laundry instead of this like mammoth atmospheric event with incredible power and destructiveness.
But Neptune has a great dark spot.
It must have spilled coffee on itself or something.
And it features winds of 1,500 miles per hour.
And it rotates around the planet every 18 hours or so.
This thing in the southern hemisphere of Neptune is the same size as the Earth.
Wow, that's crazy.
Like you could fit the Earth inside of the storm.
I know.
And it's sort of like the unloved cousin of the great red spot.
Because the great red spot is pretty big, but it's not that much bigger than the great dark spot.
The great red spot is like 130% the size of the Earth.
So it's only a little bit bigger, but nobody talks about the great dark spot and all the
destruction it's achieved.
Do you feel like the Earth maybe is feeling left out?
Like maybe the Earth wish it had a tattoo, just like Jupiter and Neptune?
I don't think we wish the Earth had any big spots like that who plowed through our civilization.
I guess the Earth does have a big stain on it.
It's called humans.
Just kidding.
Looking forward to that movie, a human hurricane.
All right.
Well, what about some of the other planets?
Anything in our inner solar system?
Yeah, so Mercury actually has a really, really thin atmosphere.
So there aren't really storms to speak of in terms of winds.
But it has a crazy magnetic field.
And also, it's very close to the sun.
It interacts with its magnetic field.
And so it has these things called magnetic tornadoes, which are sort of related.
What?
Yeah, you get these bundles of magnetic field.
And magnetic field lines can twist.
And eventually when there's too much strain on them, they can snap and then like realign.
And so this sort of causes something similar because these magnetic fields push charged particles.
And when they spin and twist, they can push particles sort of in a circular pattern.
And so you get these magnetic tornadoes where it's sort of like, you know, the northern lights,
which are just charged particles moving around magnetic fields, except you get these sort of spinning patterns of the charge particles.
on Mercury.
Whoa.
But you call that one a tornado
that's different than maybe a cyclone or a hurricane.
Yeah, exactly.
It doesn't have like the same sort of low pressure center.
It's just a sort of like sheer effect
that's creating this spinning.
Due to the magnetic fields, I guess.
And you have the same sort of thing happening actually on the sun.
On the sun, you have these like really huge towers of plasma
being ejected from the center
and all these tangled magnetic fields
because you have these charged particles moving really fast,
which gives you magnetic fields.
And so you get these huge towers with tangled magnetic fields.
And sometimes those magnetic fields get strained
and then they snap and realign.
And you get the same sort of effect.
These are called solar tornadoes.
But they don't actually spin.
People thought for a long time these things also spun
and gave you these like weird patterns.
But they're just these sort of like long towers of plasma
that are like several times the size of the Earth.
So they're not spinning, but they are maybe swirling, right?
That's what makes this call them tornadoes.
Yeah, I don't think they're even swirling.
I think people thought for a while they might be swirling
and they applied this phrase solar tornadoes to them
before they understood that they're not spinning.
And then later measurements show that they don't actually rotate.
So probably they should be downgraded from solar tornado
to just like solar massive tower of plasma.
But they still have the name.
I don't know which one has a better movie like a name.
Solar power giant tower of doom or?
Solar tornado.
All right, well, that's on the planets and in our solar system.
Now, let's talk about possible hurricanes in actual space.
Because I feel like these are hurricanes, but they're in other planets.
So they're technically not in space.
I mean, there's space relative to us, but not to, like, Saturn and Jupiter.
Yeah, the sort of extraterrestrial hurricanes.
All right, well, let's get into actual hurricanes in space.
But first, let's take another quick break.
December 29th, 1975, LaGuardia Airport.
The holiday rush, parents hauling luggage, kids gripping their new Christmas toys.
Then, at 6.33 p.m., everything changed.
There's been a bombing at the TWA terminal.
Apparently, the explosion actually impelled metal, glass.
The injured were being loaded into.
ambulances, just a chaotic, chaotic scene.
In its wake, a new kind of enemy emerged, and it was here to stay.
Terrorism.
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My boyfriend's professor is way too friendly,
and now I'm seriously suspicious.
Wait a minute, Sam.
Maybe her boyfriend's just looking for extra credit.
Well, Dakota, it's back to school week on the OK Storytime podcast,
so we'll find out soon.
This person writes, my boyfriend has been hanging out
with his young professor a lot.
He doesn't think it's a problem, but I don't trust her.
Now, he's insisting we get to know each other,
but I just want her gone.
Now, hold up.
Isn't that against school policy?
That sounds totally inappropriate.
Well, according to this person, this is her boyfriend's former professor, and they're the same age.
It's even more likely that they're cheating.
He insists there's nothing between them.
I mean, do you believe him?
Well, he's certainly trying to get this person to believe him because he now wants them both to meet.
So, do we find out if this person's boyfriend really cheated with his professor or not?
To hear the explosive finale, listen to the OK Storytime podcast on the IHeart Radio app, Apple Podcasts, or wherever you get your podcast.
Imagine that you're on an airplane, and all of a sudden you hear this.
The pilot is having an emergency, and we need someone, anyone, to land this plane.
Think you could do it?
It turns out that nearly 50% of men think that they could land the plane with the help of air traffic control.
And they're saying like, okay, pull this, until this.
Turn this.
It's just...
I can do it in my eyes closed.
I'm Mani.
I'm Noah.
This is Devon.
And on our new show, no such thing.
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All right, we're trying to come up with the next great movie for the Discovery Channel and the Weather Channel.
Daniel, any interesting names that we've come up with in the break, dark matter, typhoons.
Daniel and Jorge get eaten by dark matter sharks.
But then he gets saved by regular matter dinosaurs.
Why would regular matter dinosaurs come and save us?
They're still mad that we took over the planet when the asteroid hit.
They left it to us, come on.
It could just be the, you know, vegetarian dinosaurs
that want to help us.
I think those died out pretty quick.
Yep.
You've got to eat a lot of salad if you're a dinosaur.
Let me tell you.
All right.
Well, let's get into whether or not we can have weather in space.
I think we had an episode about weather and space.
But this one today, we're talking specifically about hurricanes in space.
Mm-hmm.
Space weather in general mostly refers to what the sun is doing
because the sun generates a solar wind, which is a stream of particles.
The sun is not just a ball of plasma that generates heat and photon.
It also shoots out protons and electrons and all sorts of other stuff, neutrinos, all sorts of stuff, the products of the fusion going on at its center.
And that solar wind is important.
And if you're out there in space, like you're a satellite, you have to be careful because these things are like tiny bullets and they can shred your electronics.
And because the sun is unpredictable, solar weather is unpredictable and like a solar storm leading to a solar flare can really inundate our data.
delicate electronics with all sorts of particles.
But what we're talking about today is actually something quite different.
It's a space hurricane.
You're right, is not the product of solar weather, but actually something that's happening
in the very, very upper atmosphere of Earth.
So it's actually more like near space weather, almost space weather.
It's like right on the border between Earth and space.
Yeah, exactly.
It's like near Earth space.
But you see this sort of same structure that we're familiar with now of a hurricane.
where you have this like low pressure center
and things rising
and then of course the spinning effect
and this is a fascinating study
from a university in China
this is done by Shengdong University in China
and they actually observed a hurricane
over the Earth's magnetic north pole
we're talking about really really far up
in the very upper atmosphere of Earth
where you have mostly just like charged particles
whizzing around so basically where the atmosphere
becomes a plasma you know where it's like protons
and electrons whizzing around in space
Oh, wow.
There's not a lot of air there, or is this plasma made from air?
This plasma is made from air, but also, you know, like, this is where the solar wind hits the outer atmosphere.
And so a lot of the air molecules get ionized when the solar wind hits them.
And so what you have up there is a lot more charged particles than you have down here on Earth.
What they saw was this thing they call a space hurricane because you have this circulation.
But instead of in air with water droplets, it's in plasma.
and the precipitation are electrons.
So this is a space hurricane in plasma, raining electrons.
What?
Raining electricity, basically.
Yeah, exactly.
Not like lightning, right?
Electricity is like the motion of energy through electrons, right?
As energy gets passed along a chain of electrons, here the electrons themselves are actually
shooting, going really, really fast up to like 10,000 kilo electron bolts, which is like
not nearly as fast as we have the large Hajon Collider,
but it's a huge, massive number of electrons.
So these things get pulled up and then rain back down.
Now, this is like different than the northern lights, right?
Like this is different than what's going on with the solar wind hitting the atmosphere.
This is like stuff that's happening with the ions and the electrons that are already floating above the Earth.
Yeah, this is a complex interaction of the plasma at the edge of the Earth atmosphere and the magnetic fields.
and how the Earth's magnetic fields interact with the other magnetic fields around us, right?
Like we have our own magnetic field, and then there's the sun's magnetic field and the magnetic fields
of all the other objects that we're sort of flying through.
And our magnetic field lines sort of like add up with those magnetic field lines to make a total
magnetic field.
But because we're moving through that magnetic field, it gets complicated.
And these magnetic field lines sort of snap and rearrange sometimes.
And that creates this central vortex.
This like spinning magnetic fields, very similar to these magnetic tornadoes we talked about on Mercury.
And the net effect is that it accelerates electrons upwards. It pulls them up. So effectively makes
a low pressure region at the center where it's low pressure in terms of like fewer electrons are there.
And so then the other electrons around rush in and then that creates a swirl.
That's exactly it. So the other electrons rush in and then everything rises up. In this case,
it's powered by this magnetic field vortex instead of like, you know, warm ocean waters.
But the structure is the same.
And that's the thing I find really fascinating, that this basic mechanism of a hurricane, you see
in lots of different places, as long as you have these basic ingredients, you know, something
to power it, create a low pressure center, and then on a spinning planet, you'll end up with this
spinning effect.
And that's exactly what they see.
But these are not that common.
And so this one particular storm was seen in 2014.
with satellite observations.
There's this awesome device called the special sensor ultraviolet spectrographic imager
or suzy to its friends.
Sussie or Susie?
I'll let you decide how to pronounce it.
I'm not sure how the scientists who work on to pronounce it.
So this was that somebody took a picture of this space hurricane with plasma and raining electrons.
They took a picture of it with a satellite.
Yeah, exactly.
Because it radiates, right?
Anytime you have charged particles accelerating, they radiate photons.
And so we can see this.
Anywhere in the universe, electrons are being bent or accelerated, they will give off photons.
And this is a great way to see, like, how particles are moving through space and what's going on.
So this satellite detects in the ultraviolet, the radiation of these electrons trapped in this space hurricane.
And so they were able to see it.
And so if you Google space hurricane, you can see this awesome picture of really this spinning vortex.
And it's got these lines and everything.
But it's sort of similar to the northern lights, right?
in that these are charged particles
that are moving along magnetic field lines
and they are giving off radiation.
But instead of just being these long bands,
it really is this spiral with various
arms. Wow. Did you see it with the
naked eye or is it that you could only see it with this
satellite? You definitely couldn't see it from the surface.
I don't know if it gave off radiation
in the visible light, but it was definitely
strongest in the UV. I think that's
because these very high energy electrons.
It's a very high frequency
radiation. I guess the question is, why
did they call it a space hurricane?
and not a space typhoon or space cyclone?
Is it because it's technically in the northern hemisphere?
I think space hurricane just has the right ring to it, right?
Hurricane just sounds more dramatic than typhoon or cyclone.
Space cyclone.
Cosmic cyclone.
You should have been in the room pitching these ideas.
So this thing is pretty awesome.
It's a thousand kilometers wide.
It's not something that happens very often.
This one lasted about eight hours before it dissipated, and we haven't seen another one.
And so it's something scientists are on the lookout for because we're looking to understand,
like, are these hurricanes really a universal phenomenon?
Do they exist all over the universe in various kinds of forms, in water, in methane, in electrons?
That's really fascinating to know that we could, like, take our knowledge of what's happening here on Earth
and use it to understand the weather on other planets around other stars.
Interesting. Like if it can happen here, it can happen in other places. And, you know, the way it happens, it can maybe tell us about what's going on in those layers of clouds and gases and other planets.
Because we spend a lot of energy right now trying to understand hurricanes, not just because we want to predict them so that we can keep people safe because we know where they're going to land, but because they're an example of something that's really difficult to talk about, really difficult to calculate.
You talked earlier in the podcast at the very beginning about chaos. And there are a great example.
of chaos. Like, we understand the basic rules of everything that goes on inside a hurricane. There's
no mystery there. There's no, like, magic happening. It's all just water droplets and air moving,
but it's still very difficult to predict when a hurricane will form and what it will do because it's
very, very sensitive to tiny little details. A small change in how it started can mean a big change
in where it landed. And that makes it difficult to handle for our computers. So some of the most
powerful computers in the world right now are spending their cycles trying to understand what's
going on inside a hurricane. It's a great example of a chaos problem. Even if particle physicists solved
string theory, it doesn't mean we could predict where hurricanes will land. It's sort of like a
problem at a different scale. So if we can figure this kind of stuff out, if we spend our energy
understanding hurricanes here on Earth, it might very well help us understand weather on alien
planets. You mean like if we get good at modeling how gases and liquids and fluids and fluid,
basically work, right?
And what they can do
and we can predict
how they're going to move together.
That's right.
We need the string theory of hurricanes.
Or you can string together
a theory of hurricanes.
As long as we don't get
a string of hurricanes,
that would be pretty dangerous.
Just take that Sharpie
and move them out of the way.
All right.
Well, that's pretty cool.
Space hurricanes.
They do happen in other planets
and also in the upper atmosphere.
Now, Daniel, I guess a question
we sort of asked at the beginning
was, you know,
can this same phenomenon
happen out there in like outer space like between stars between galaxies you know if you have like a cloud of
gas and dust can it form a hurricane maybe out there in space as opposed it's possible you know you need
some sort of energy source that can create like a low pressure region but we do have big clouds of
gas and dust out there and they're heated by supernova and all sorts of other stuff and so in the
dynamics of those turbulent clouds there potentially could be hurricanes forming right or cyclones
space cyclones.
Whatever you want to call them,
they're awesome
and their destructive power.
All right.
Well, as always,
keep an eye on the weather
because it can tell us a lot
about Earth,
about physics,
about gases and ions,
and just help us
a little bit more
understand how things
work in the universe.
And I find it heartening
to know that the things
we learn here on Earth
can be translated to
other places in the solar system
and other places in the universe.
That human science,
all of our knowledge might help us crack problems on other planets.
Then we'll know whether to bring an umbrella or not to Saturn or Neptune.
Definitely bring an umbrella.
And a space suit.
Made out of diamonds, hopefully.
All right, well, we hope you enjoyed that.
Thanks for joining us.
See you next time.
Thanks for listening.
And remember that Daniel and Jorge Explain the Universe is a productive.
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December 29th, 1975, LaGuardia Airport.
The holiday rush.
Parents hauling luggage, kids gripping their new Christmas toys.
Then everything changed.
There's been a bombing at the TWA terminal.
Just a chaotic, chaotic scene.
In its wake, a new kind of enemy emerged, terrorism.
Listen to the new season of Law and Order Criminal Justice System on the IHeart
Radio app, Apple Podcasts, or wherever you get your podcasts.
My boyfriend's professor is way too friendly.
I'm seriously suspicious.
Wait a minute, Sam.
Maybe her boyfriend's just looking for extra credit.
Well, Dakota, luckily, it's back to school week on the OK Storytime podcast, so we'll find out soon.
This person writes, my boyfriend's been hanging out with his young professor a lot.
He doesn't think it's a problem, but I don't trust her.
Now he's insisting we get to know each other, but I just want her gone.
Hold up.
Isn't that against school policy?
That seems inappropriate.
Maybe find out how it ends by listening to the OK Storytime podcast on the IHeart Radio app, Apple
podcast, or wherever you get your podcast.
This is an IHeart podcast.