Unexplainable - A sonic tour of the solar system
Episode Date: February 2, 2022What does it sound like on Mars? On Jupiter? Titan? This collaboration between the podcast Twenty Thousand Hertz and the composer Melodysheep imagines the soundscapes of other worlds. For more, go to ...http://vox.com/unexplainable It’s a great place to view show transcripts and read more about the topics on our show. Also, email us! unexplainable@vox.com We read every email. Support Unexplainable by making a financial contribution to Vox! bit.ly/givepodcasts Learn more about your ad choices. Visit podcastchoices.com/adchoices
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It's unexplainable.
I'm Noam-Hassenfeld.
Most of us have at least a basic understanding of the solar system.
And that's because it's often one of the first things we cover in science class as kids.
We learn how big the planets are, how far away they are from the sun, even what color they are.
As images, the planets are beautiful, but they also come with a sense of remoteness.
It's hard to really envision what it might be like to actually be on these planets, hundreds of millions of miles away.
But there's another more immersive way to imagine our solar system that I recently heard on the podcast 20,000 Hertz.
It's imagining what each planet might sound like. In some ways, sound is more of a visceral sense.
In order to imagine what the planet sound like, you have to imagine yourself being there, fully surrounded by this completely alien environment.
20,000 Hertz is a podcast all about sound, and we're going to share their planets episode with you this week.
I'm especially excited because it's a collaboration they did with the composer and sound designer
melody sheep. The sound design in this episode is truly fantastic. So I'd recommend using
headphones if you can. Okay, here's 20,000 Hertz and host Dallas Taylor.
The best marketing tagline in movie history may have been from the Ridley Scott film Alien.
In space, no one can hear you scream. That phrase is true, and not only because of the
distance from Earth, it has to do with how sound travels.
You don't have sound in space because sound requires molecules.
That's Dr. Laurie Glaze from NASA's Goddard Space Flight Center.
Laurie oversees about 300 scientists that study all the planets and small bodies of our solar
system.
You have to be able to move the molecules with the sound waves and without the molecules there,
the sound just doesn't move.
You can try and use your lungs to push the sound out of your
but it won't travel anywhere.
My name is Keith Knoll.
I'm the chief of the Planetary Systems Lab
at Goddard Space Flight Center.
What is sound?
It's the vibrations of molecules in the air.
It's a pressure wave.
Sound takes on many forms,
but the kind that we're most familiar with,
is pressure waves moving through gas.
Sound travels faster through lighter gases,
like helium, making our voices sound higher pitched.
When the air is colder,
or made of heavier gases like sulfur hexafluoride.
Sound travels more slowly.
But there's even more to it than that.
Sound can be transmitted through any kind of physical medium.
So if you are in a swimming pool, you can still hear sound.
That's being transmitted through water.
Earthquakes are essentially sound waves being transmitted through the solid Earth.
Our experience of sound here on Earth is only a sliver of what's possible.
Each planet is a unique soundscape, shaped by its particular makeup.
So let's go from planet to planet in our solar system
to find out what the surface of each one would sound like to our ears.
To be clear, you'd pretty much die instantly everywhere but here.
But we're going to pretend to have superhuman powers that will keep us alive.
So with that disclaimer out of the way, let's start closest to the sun.
Places like mercury and these rocky bodies with no atmospheres
or would be similar to being in space.
There would not be much sound, if any.
With its near vacuum surface conditions,
it might seem like mercury would be completely devoid of sound.
But it's there.
Not in the air, but in the rocks.
Scientists have found evidence that the planet is seismically active.
So if you put your ear against the ground,
you might catch the sound of something strange.
A Mercury quake.
Next up, Venus.
Because you have this really dense atmosphere, much denser than Earths,
the sound would tend toward what things sound like when you're underwater.
If you could imagine something in between air and water, that kind of density,
you're running your hand through that, and you would feel that.
If you were to just materialize in that environment of 900 degrees Fahrenheit and 100 times our
atmospheric pressure, you would first be crushed, and then you would probably just burn up completely.
One thing we do know about Venus is that it has lightning. So you might hear thunder.
It turns out that Venus is one place we have real audio from. In the early 80s, the Soviet lander,
Venera 14, successfully landed on the surface. It survived for nearly an hour before shutting down.
And during that time, it picked up these eerie sounds of the Venusian winds.
But what about something more human?
What would my voice sound like?
The denser atmosphere would tend to lower the pitch.
But the hotter air would act to increase the speed of sound, making my voice sound higher.
It's a strange scene to imagine.
I'm on Venus in this ethereal world that's a mix between a gas-like atmosphere
in water.
I'm almost floating.
My voice, the thunder.
It's all slightly muffled and distorted as it travels through the thick atmosphere.
Our next stop is a polar opposite sonic environment.
Sound on Mars is going to kind of be the opposite direction of Venus because the atmosphere
on Mars is very, very thin compared to Earth.
And so there's just not very many molecules.
The wind speed can get very high.
as high as hurricane force at the surface sometimes.
That's Scott Gazach, a research astrophysicist at NASA.
So imagine a hundred mile per hour wind on Earth,
you'd be almost blown off your feet.
If you were standing on the surface there in Mars,
you'd feel it, but it would feel like a gentle breeze
here on the surface of Earth.
You wouldn't necessarily hear the wind itself.
You would hear the dust that's being picked up,
and it would be banging against the faceplate of your spacesuit.
We wouldn't hear too much.
Maybe if you were scuffling along on the surface,
you could maybe very faintly hear that sound as you were clawing at the ground.
But Mars is another world where we don't have to rely purely on speculation.
After sending robots for decades,
we finally received the first real audio from the surface of Mars,
recorded by the Perseverance Rover in 2021.
These are the sounds of the Martian winds,
and the clunk of the rover's wheels over the planet's surface,
sounds that our ancestors could have only dreamed of hearing.
Wind and rocks are one thing, but what would our voices sound like?
In this thin atmosphere, speech would sound quieter and wouldn't travel as far.
And while the low-density air would usually make our voices sound higher,
the colder temperatures would slow down the sound,
and the pitch would balance out.
The biggest change would come from the composition of the air.
The atmosphere of Mars is mostly carbon dioxide, which absorbs high frequencies.
So our voices would become muffled and distant.
If our voices don't carry far, how about a piano?
In the faint Martian air, it would sound like something you might hear in a dream.
Coming up after the break, the outer solar system,
and the actual recorded sound of winds on a small moon nearly a billion miles away.
That's next.
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Here the sun is the planet Mercury, next the shrouded planet Venus is as cloudy as can be.
The Earth is next, we call it home, let's hope it stays that way.
It's unexplainable. We're back, and we're right in the middle of journeying through the solar system
to find out what it might sound like. Here's the host of 20,000 Hertz, Dallas-Tenable.
Let's continue on to the outer gas giants, starting with the biggest.
Jupiter doesn't have a solid surface.
The whole planet is made up of gas that gets denser and denser the deeper you go,
eventually becoming a liquid.
The pressure and temperature variations are what caused those beautiful swirling bands.
Depending on where you were inside its layers, the soundscape would change drastically.
The interesting thing on Jupiter is that the pressure and the temperatures where the cloud decks are
are actually not so inhospitable.
You have these super powerful lightning bolts.
You'd hear echoes, of echoes, of echoes, just back and forth.
So what about the rest of the outer planets?
Like Jupiter, Saturn, Uranus, and Neptune are mostly made of hydrogen and helium.
Those two gases are lighter than Earth,
Earth's atmosphere, so our voices would generally sound higher-pitched.
But each layer of each planet would provide its own unique sonic experience.
Different worlds of sound.
From inside the raging storms of Saturn…
…to the frigid methane clouds of Uranus, Neptune.
But what about our old friend Pluto?
It is probably the thinnest bound atmosphere that we know.
but it also looks really complex.
I mean, it's got layers.
It's pretty different because the temperature is so low.
Nitrogen is an ice.
Carbon monoxide is mostly an ice.
That's probably the weirdest, most different kind of place
in terms of thinking about how composition temperature pressure
would affect the sound.
There's one more world worth a listen.
Not a planet, but a moon.
Saturn's moon, Titan, is the only,
only one we know of with a true atmosphere.
It's even thicker than ours, but it's freezing cold, and it rains liquid methane.
In 2005, the Huygens Space Probe recorded audio as it descended through the thick atmosphere to the surface.
What you're hearing is incredible, the sound of the winds from a tiny moon,
nearly a billion miles away. If you were standing on its surface,
The soundscape might be eerily familiar.
You might hear the sound of flowing liquid methane.
Not a waterfall, but a methanaphal.
When you think of space, it's mostly space,
where there's no medium to transmit sound.
And yet, it's perfect for light.
Light fills the universe.
But sound doesn't.
The whole universe is connected by light.
Light anywhere in the universe can travel to anywhere else in the universe.
But with sound, you really are a trillion different islands of sound.
We think of Earth as special because it can support life.
But it goes much further than that.
It's one of the true places in the universe where sound is abundant.
And all of that sound has impacted life on an evolutionary level.
If you look at life on Earth, being able to hear something seems to be a very big advantage,
you know, biologically, right? Because you can become aware of either predators or prey or food sources.
So alien life in the universe would probably have an advantage to hear things also in whatever planet or ocean or atmosphere they lived in.
These aliens would probably perceive sound in a totally different way.
a way that's in tune with their own environment,
and perhaps hear completely different frequencies.
Sound as we understand it is so unbelievably rare.
Yet it's abundant right here within this thin blanket of atmosphere.
But if we travel straight up, it goes away very quickly.
It gets quieter and quieter until...
That story originally came from 20,000.
a podcast that reveals the stories behind the world's most recognizable and interesting sounds.
In past episodes, they've explored the shady world of audio deepfakes,
they've broken down the sound design of Star Wars,
and they've investigated why top secret spy messages are being broadcast on the radio.
You can find 20,000 Hertz where you're listening right now.
The version of the story you just heard was produced by Melody Sheep,
aka John Boswell, in collaboration with 20,000 Hertz.
Melody Sheep is a composer, sound designer, and filmmaker.
He sound designed and composed the music for this episode,
and he makes some truly gorgeous videos,
which you can find at YouTube.com slash Melody Sheep.
In the episode, you heard from host Dallas Taylor
and scientists Lori Glaze, Keith Knoll, and Scott Gazech.
The episode was written by Kevin Edds and John Boswell,
edited by Casey Emerling, and mixed by de facto sound.
Special thanks to Sam Sneebly and Colin Devarnie.
As always, if you want to get in touch with us, we're at UnexPlanable at Vox.com.
Unexplainable is part of the Vox Media Podcast Network, and we'll be back next week.