SciShow Tangents - Weather
Episode Date: January 26, 2021Weather is an evergreen small talk topic, and after this episode of Tangents you will be fully equipped to blow the socks off every grocery store clerk, dental technician, and next door neighbor you m...eet with your in-depth knowledge of wind, precipitation, and more! Follow us on Twitter @SciShowTangents, where we’ll tweet out topics for upcoming episodes and you can ask the science couch questions! While you're at it, check out the Tangents crew on Twitter: Ceri: @ceriley Sam: @slamschultz Hank: @hankgreenIf you want to learn more about any of our main topics, check out these links:[Brain Storm]Falling animalshttps://www.loc.gov/everyday-mysteries/item/can-it-rain-frogs-fish-and-other-objectshttps://www.smithsonianmag.com/science-nature/strange-rain-why-fish-frogs-and-golf-balls-fall-skies-180956527/https://www.atlasobscura.com/places/lluvia-de-peces-the-rain-of-fishhttps://www.thelocal.no/20150416/earthworms-rain-from-sky-over-southern-norwayAutomated Weather Observing Systemshttps://www.skybrary.aero/index.php/Automated_Weather_Observing_System_(AWOS)https://www.faa.gov/documentLibrary/media/Advisory_Circular/AC_150_5220-16E.pdfCloud seedinghttps://www.technologyreview.com/2008/03/25/270084/weather-engineering-in-china/http://news.bbc.co.uk/2/hi/asia-pacific/7899086.stmhttps://web.archive.org/web/20111123025420/http://www.ceawmt.in/indian_history.htmlhttps://www.sciencedirect.com/science/article/pii/S0169809515000484https://www.ncm.ae/en/details.html?id=825&lid=575https://www.popsci.com/smog-cloud-seeding-thailand/https://web.archive.org/web/20161105045733/http://thainews.prd.go.th/website_en/news/news_detail/WNEVN5903040010016https://www.eurekalert.org/pub_releases/2006-01/ncfa-wcs012606.phphttps://journalofweathermodification.org/index.php/JWM/article/view/474https://www.weathermod-bg.eu/index_en.phphttps://www.reuters.com/article/us-russia-fires-siberia/russia-seeds-clouds-in-siberia-to-douse-raging-wildfires-idUSKBN24B1JT[Fact Off]Tempest PrognosticatorPic here: https://www.amusingplanet.com/2019/07/tempest-prognosticator-predicting.htmlhttps://blogs.slv.vic.gov.au/our-stories/cloud-watching-understanding-weather/https://www.smithjournal.com.au/blogs/science/3898-can-you-predict-the-weather-with-leecheshttps://www.theguardian.com/news/2015/apr/19/weatherwatch-forecasting-tempest-prognosticator-storm-leechhttps://interestingengineering.com/scientists-used-leaches-to-predict-the-weatherhttps://www.atlasobscura.com/articles/leeches-predict-weather-tempest-prognosticatorAMDARhttps://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2020GL088613https://www.nature.com/articles/d41586-020-02198-4https://community.wmo.int/activity-areas/aircraft-based-observations/amdar/about-amdarhttps://amdar.noaa.gov/docs/bams/[Ask the Science Couch]Acid rainhttps://www.epa.gov/acidrain/what-acid-rainhttp://butane.chem.uiuc.edu/pshapley/GenChem1/L26/3.htmlhttps://www.usgs.gov/special-topic/water-science-school/science/acid-rain-and-water?qt-science_center_objects=0#qt-science_center_objectshttps://ocean.si.edu/ocean-life/invertebrates/ocean-acidification
Transcript
Discussion (0)
Hello and welcome to SciShow Tangents.
It's the lightly competitive knowledge showcase starring some of the geniuses that make the YouTube series SciShow happen.
Or just some regular folk who are friends with each other. showcase starring some of the geniuses that make the YouTube series size show happen or or just
some regular folk who are friends with each other this week as always as sometimes I am joined by
Sam Schultz what's the most satisfying size of battery oh you know what I can't stand triple
a batteries I I hate those.
Anything bigger than a AAA,
and actually, watch batteries too.
I like them all except a AAA.
That's such a bad size for some reason.
It's weird.
I think about that all the time.
Finally found something
that you're actually passionate about with my question.
I figure if I get weirder and weirder,
I will locate more things that sam
cares a lot about have you licked a d battery that that's why that one's my favorite the nine
volts not the d battery nine volt yeah you're right square ones i want to really bad but i'm
scared oh it's just like no i've done it my guitar uses them and so like during shows you have to
make sure the battery is charged
and you can tell by looking at it.
Is that why you guys are so smart?
Because we charge our brains with batteries.
Yeah, we're battery lickers over here.
What's your tagline?
Exploring the idea of podcasting from bed.
I do sometimes podcast from bed
for my podcast I have with my wife.
And it is not unpleasant.
I will say that.
Sari Riley is also my other co-host for the day.
Hello, Sari.
Hello.
Do you have any idea why there is a large taxidermied squirrel
in the parking lot of our office building?
I have not been to our office building in months.
How large?
I would say that if it were a live squirrel, it would weigh
four times more than a fox squirrel. And it's mounted to a piece of driftwood.
Could be a trap. It's probably like a giant ruse set out to catch you specifically. One of the
scientists we invited for an interview left out a squirrel as a social psychology experiment.
How long will it take for these nerds to bring in a taxidermied squirrel into their office yeah it's a trojan squirrel yeah what's your tagline conspiracy of snakes and i'm hank green
and my tagline is printers be damned take off the hat every week here on tangents we are trying to
one-up amazin to let each other with science facts
and we're also trying to stay on topic but we're not going to even though we're trying we're also
going to play for glory but we are also awarding chin coins from week to week because we need to
keep track of who is winning and who is not so that we can feel bad or good about ourselves
just as last week we're bringing in the new season by trying out some new games.
So each week in January,
one of us is bringing a new game for the show.
If we like it enough,
might put it into our regular rotation.
And I can't wait to see what Sari's mystery game is.
But first, we're going to introduce this week's topic
with the traditional science poem this week from Sari.
All I'm going to say is shanties are in right now.
Oh, boy.
There once was a forest of old birch trees struck by lightning for all to see the rain welled up the leaves swirled round oh blow my bully boys blow
soon may the weatherman come to bring us a forecast of this region one day when the thunder
is done we'll take our leave and go.
She had not been two weeks in spring
when down on her the clouds did
bring the hail and ice and wind
did sting her face with all that
snow. Soon may
the weatherman come to bring us
a forecast of this region.
One day when the blizzard is done, we'll
take our leave and go.
And then the summer days get hotter.
The sun beats down and we're chugging water.
Turn up the fan.
I'm glad we bought her before the sky did glow.
Soon may the weatherman come to bring us a forecast of this region.
One day when the heat is done, we'll take our leave and go.
Thank you.
Holy crap.
You need more than one point we have established that parody songs get more than one point oh we also established that the poems don't
get points anymore yeah oh fuck i went all out for just to scare myself you know you gotta feel
alive during a pandemic sometimes yeah i hope by the time this episode comes out,
sea shanties are still a thing.
But I also hope by the time this episode
has been out for four years,
that sea shanties are still a big part of popular culture
because it is the main thing that I have,
have like just had so much joy brought into my life by.
So thank you for doing a sea shanty cover.
And the topic for our day is not just weathermen,
but also just the weather in general.
So Sari, what is weather?
Well, weather is all kinds of events
that happen in the Earth's atmosphere,
usually in the troposphere,
which is the part of the Earth's atmosphere
that is closest to the surface and under the most air pressure, just from like other atmospheres squishing down on it and being pulled down because of gravity.
And it can be temperature and wind and humidity and storms and all that stuff.
If you point outside and are like, look at that, that's the weather.
How does wind work? That's air pressure.
You can think of high pressure as when molecules are crammed close together. So like a crowded room and you can think of low pressure as when things are more far apart. So like everyone has an,
is an arm's distance is six feet away from everyone else, hypothetically. And naturally
to balance out to like reach an equilibrium, things move from high-pressure zones to low-pressure zones.
So they move from the more crowded areas to the less crowded areas.
And so air moves from high-pressure zones to low-pressure zones.
And that movement of air is wind.
Do you know where the word weather came from?
I do.
It comes from Carl Weathers.
He invented it.
Wasn't around until, like, the 70s. I don't know who Carl Weathers is He invented it. Wasn't around until like the 70s.
I don't know who Carl Weathers is.
Who is he?
He's an actor.
He's a predator.
He's the strong guy who's not Arnold Schwarzenegger when they do the cool arm wrestling thing.
The meme.
Yeah, the meme.
He's the other guy in the movie.
He's the other meme.
Arm.
Okay.
It could have been him if he's a time traveler.
The root word is we or weh.
I don't know how to say it, but it's spelled W-E, which means to blow.
Oh.
It's thematic with the shanty.
And then that changed into Proto-Indo-European wedro.
And then it got passed around Europe as like wetter or wetar or wetter to mean like a storm or wind, but then
weather in general. I couldn't find like when we started to differentiate or I couldn't find
any separate words for good weather and like storm or bad weather, but in ancient Greece,
at least they used weather to describe like inclement storms and bad things happening but sunny weather
like calm weather was a different word and then at some point we mushed them all together or like
you didn't need that word this is like that's that's normal it just is outside all right sari
well it is also now you're going to continue it's going to be all you this is the sari episode of
tangents because now it's time for you to share with us your mystery
game okay i just have written in all caps hello this is brainstorm so that's the name of my game
brainstorm here's how it works i will give a prompt and the number of answers i have on my list
and you'll have one minute as a team to guess them with no penalties for wrong answers.
You both get points equal to the number of correct answers you guessed,
and I get points equal to the number of unguessed correct answers.
Okay.
So for example, a prompt might be,
Kool-Aid was invented in 1927 when a man named Edward Perkins
figured out how to make a powdered juice concentrate
as an alternative to the liquid concentrates available at the time.
The question is,
what were the six original flavors of Kool-Aid?
You have a minute to guess.
And if you guessed after that minute,
grape and cherry,
you would both get two points
and I would get four points
for the remaining four flavors.
But if you guessed grape, cherry, orange,
root beer, lemon, lime, and raspberry,
you both would get six points
and I am doing not so great with zero points. I would not. No, I've gotten root beer, lemon lime, and raspberry. You both would get six points, and I am doing not so great with zero points.
I would not. No, I've gotten
root beer. Root beer,
cool, eh? That's an advanced flavor.
Apparently, they had it figured out right there
at the beginning. Yeah,
how have we moved
backward so substantially
from root beer, cool?
What I want is some very flat
root beer. Question number one. is some very flat root beer.
Question number one.
We learn basic types of precipitation in school, like snow, rain, or hail.
But sometimes animals can get sucked up into the sky by extreme weather phenomena like tornadoes and water spouts, which are just tornadoes over water, and then fall back out, like it's literally raining cats and dogs.
What are three kinds of animals that have been well-documented to fall out of the sky,
kind of like precipitation?
Ready, set, go.
Fish.
Yes.
Obviously.
Frogs.
Yes, also frogs.
Phew, what's the last one?
I don't know.
What other kind of...
No wrong answer penalties, so you can just keep going lizards nope uh birds no okay jellyfish no oh uh uh rabbits no but good thought. Mice. No. Also good thought. Rats.
No.
Is it a rodent?
No.
Is it a mammal?
No.
Oh, well, why did you say good thought?
Just like you were getting smaller.
Lizards feel like you were getting, like, slowly getting bigger, and then chickens.
There's all sides of lizards.
I don't think anybody said chickens.
Is the answer chickens?
Oh, stop.
The last answer, or the final one, was worms one was worms earthworms okay when did worms fall out of the sky it's happened a couple times it's happened
in the united states a few times a big one was 2015 in norway where uh a scientist found
thousands of earthworms on the surface of the snow and they thought or they thought that the
worms were dead,
but when he put them in his hand,
he found that they were alive,
and so he assumed that they got sucked up
out of mud somewhere
and then just dumped on the snowy earth.
Did I make up that there was once a shower of raw meat?
There was a shower of raw meat somewhere.
I think somewhere in the United States.
It was called the Kentucky Meat Shower, everyone.
Some small chunks
of red meat
landed near Rankin
in Bath County, Kentucky.
And we're not sure
how it happened,
but the most popular theory
is the vulture theory.
A group of vultures
regurgitated their meals.
So that's not,
that's not weather related.
Yeah, that's vomit
out of the sky.
Anyone could do that.
No weather involved. Because, that's vomit out of the sky. Anyone could do that. No weather involved.
Because you got fish and frogs, you get two points each.
And because you missed worms of the three answers, I get one point.
Okay, I like this game.
Question number two.
It's really important to monitor weather before flying a plane.
So in the U.S., there are these things operated by the Federal Aviation Administration called AWOS or AWOS, maybe, units, which stands for Automated Weather Observing Systems.
The latest and greatest specs I could find are for AWOS-4, which measures both general atmospheric
things and specific dangers that plane pilots might want to know about because they could delay
takeoff or require some maintenance on the plane. So what are eight distinct types of things that automated weather observing systems measure?
Ready?
Go.
Temperature.
Yes.
Wind speed.
Yes.
Humidity.
No.
Wind direction.
Does that count as a difference?
I lumped that with wind speed and gusts and direction oh please
uh precipitation yes yeah precipitation type and amount i lumped into one okay there's like a
billion more what does the sky do it um think about planes what do they need to know? Okay, I'm thinking about them. And it's not helping me at all.
Height of something.
Hank, you go.
Height of fog?
Yeah, visibility or cloud height.
Visibility.
Good job.
Four more.
Okay, time.
Something that turbulence related.
Oh, shit.
Oh, time.
Were birds?
Was birds one of them?
Birds was not one of them.
Oh, that would have been good.
Good guess.
So the remaining ones were barometric pressure.
Oh, duh.
Lightning or like extreme storms, which is separate from precipitation.
Ice or freezing rain.
And runway surface conditions, which surprised me.
Right, because it could be clear now, but it could still be wet.
Yes.
I wouldn't have got that last one.
Pressure, I feel like a total jackass for not getting it.
That's like what weather is, is my understanding at this point.
Yeah, we just talked about it.
Still just barely winning.
You got four, and then there are four that you didn't get.
So we both got four, or we all got four points that round.
Question number three.
Weather modification has had its ups and downs in history, but one thing that countries have
consistently tried is cloud seeding. Water vapor naturally condenses on dust particles or tiny
bacteria, collectively called condensation nuclei, to form clouds. So cloud seeding involves spreading
condensation nuclei, like silver iodide or even dry ice, to make clouds, usually for two purposes.
One is to fight off drought, or one is to use up the water vapor so there's clear weather in days ahead.
Some countries have experimented once or twice in particularly dire weather situations or have patchwork regional organizations.
But I've narrowed down a list of 10 countries that have
had well-established cloud seeding programs for years or even decades. What are those 10 countries?
Ready? Go. Russia. Yes. China. Yes. The United States of America. Yes. We do? Oh,
states of america yes we do oh england gets lots of rain so not them south africa no canada yes canada argentina not argentina okay the united the united kingdom i'm gonna try it
not the uk they get a lot of rain hank come on well but maybe they want to clear it up. There was another reason. Oh, okay.
The United Arab Emirates.
Yeah.
Good job, Sam.
Oh, nice.
Yeah.
I guess that makes sense.
Saudi Arabia.
No.
Do we have more?
There's more?
You have more.
You have five more.
Oh, my God.
Five more?
Time's up.
Sorry.
Oh, God.
You got to say countries. Sam couldn't think of a country. I couldn't think of a country. It's up. Ah, sorry. Oh, God, you got to say countries. Sam couldn't think of a country.
I couldn't think of a country.
It's true.
The ones that you missed are India, which has been...
Oh, yeah, totally.
...had cloud seeding programs since the 1950s.
And it's some of the longest and biggest programs in Southeast Asia.
You missed Israel.
I don't know.
They're on Israel 4, randomized seeding experiment.
So it's definitely been going for quite a bit, at least since 1975.
Yeah, at least four experiments for decades.
You missed Thailand, which I thought was interesting.
It was a project initiated in November 1955 called the Thailand Royal Rainmaking Project.
And they have a Department of royal rainmaking and agricultural aviation
cool and then bulgaria they have a hail suppression agency uh that protects regions of farmland from
hail crops and you missed australia oh does it work so scientists are mixed on it but it works
enough and consistently enough that a lot of people are researching it and looking into it.
China was interesting because they used it before the Beijing Olympics to make sure it was clear on the first day of them.
So that worked because there wasn't rain in their giant stadium.
But I think the biggest problems that people are wondering about are making it work consistently or like in a meaningful way,
because you can make it rain by spraying condensation nuclei into the sky, but at what
pollution cost? Or does it have enough water to like significantly change farmland or crops or
anything? Like, does it really increase the water that much? And effects on other countries, too. So if you, like, create clouds,
and then those clouds fly over to a different country
and then mess up their weather system,
what do you do about that?
So you got five, and then you missed five,
so we all got five points.
If we just named the biggest countries by land area,
we would have gotten seven.
Yeah, but I couldn't remember what they were.
I said all the countries I knew, okay?
Same as those three countries.
Next up, we're going to take a short break,
and then it'll be time for the Fact Off. Welcome back, everybody.
Here are our scores.
We got me and Sam tied with 11
because that's how that game worked.
And Sari with 10.
But you should honestly have 12 after that parody song.
Not too bad.
You don't.
And now it's time for the fact talk.
Sam and I have both brought science facts to present to Sari
in an attempt to blow her mind.
And Sari has points that she can award to the fact that she likes the most,
and it will decide the winner of the episode.
I can tell by where we're at right now.
But to decide who goes first, Sari has a trivia question for us to answer.
Grapple is sometimes called soft hail or snow pellets,
but it isn't really hail and it isn't really snow.
It's super cooled water droplets
that freeze onto snowflakes to form tiny balls of rime ice.
So how cold can these super cooled water droplets be
before they freeze?
I will say negative 10 degrees Celsius.
Oh, I'll say lower than that.
I'll say negative 15 degrees Celsius.
The answer is negative 48.3 degrees Celsius.
Holy cow.
Why doesn't that water freeze like at a normal freezing temperature?
It's so clean.
There's no nucleation site.
So if you've got extra, extra clean air and just water floating around, then it can get very cold until a snowflake shows up and there's a nucleation site.
So then it gloms on and freezes.
In the same way where you can put in a water bottle into the freezer and it can become super cooled without being ice.
I guess I'll go first. So in 2021, we have all kinds of computer models and
electronic instruments to tell us many days in advance when bad weather is coming. And this lets
people like board up windows or build sandbag embankments and take lots of other precautions
to minimize the loss of life and property damage that a big storm can cause. But in England in the
year 1850, they were mostly still relying on a combination of folk knowledge and telegraphs from places that were currently experiencing storms.
So this meant that storms could pretty much come out of nowhere.
And if you were in one of the coastal towns that was supposed to send the telegraph if you were in a storm, you were already in a storm.
So there wasn't really that much you could do about it.
And England was also losing ships at sea to storms because there wasn't really any way to communicate
what the weather was like on the ocean.
So this combination of problems set the stage
for the invention of weather forecasting.
And a footnote in that process is Dr. George Merriweather
and a bunch of leeches.
While doctors at the time didn't necessarily believe
in balancing humors, they still practiced bloodletting.
And it was like a
treatment for basically any disease you could think of at the time, I think. And they loved
to use leeches to do bloodletting. So they had big jars of leeches sitting around doctor's offices,
basically. So Dr. Merriweather spent a lot of time with leeches and noticed that his leeches got all
worked up when bad weather was on its way. And they would like writhe around and climb up the
sides of the jars and just like flip out. And from a modern lens, people think that possibly what was happening
was that leeches can sense drops in pressure from a coming storm, which means that rain is coming
and that they can travel farther than they could otherwise in their search for blood.
But inspired by this observation and a poem by Edward Jenner, who is a scientist whose work
also helped popularize the smallpox vaccine.
The poem was about how animals react to coming rainstorms because like animal instinct was also a big new discovery that they were trying to figure out.
The poem featured the line, the leech disturbed is newly risen quite to the summit of his prison.
I don't really know what that means, but to Dr. Merriweather, it meant that he should spend several months putting together an idea for a new type of weather prediction device that used leeches.
I also think there were lots of types of barometers that existed at this point that also detected atmospheric pressure.
So he was sort of reinventing the wheel, but with leeches.
I don't think he knew that, though.
He didn't.
Yeah.
Yeah.
he knew that though he didn't yeah yeah uh so anyway he came up with 12 corked glass jars were placed in a big circle at the base of this contraption and some water and a leech were placed
in each one he wrote that he used glass jars to prevent the affliction of solitary confinement
in the leeches aka so they wouldn't be lonely so they could see each other and be like hey leech
so each jar had a string through the cork and into the bottle and
the other end of the string was tied to a bell hammer positioned by a big bell that was in the
middle of the jars like on a big pedestal and he called his invention the tempest prognosticator
so the idea was that when the weather got bad the leeches would start to freak out and climb up the
walls of the bottle to go blood hunting i guess And they would move the string and ring the bell.
So the more ringing there was, the worse the weather was coming was his idea.
So he did a bunch of these tests through the 1850s,
and he had maybe some possibly successful results.
He would send predictions out to different scientific organizations around the country.
And at least one of them wrote him back a letter that said that he had successfully predicted a storm
by up to 12 hours.
But I don't know how many letters he sent out.
So he maybe just got lucky.
It's a false positive, yeah.
So he thought his invention could save lives
and he wrote letters to the government
asking them to adopt the prognosticator
as the official storm detecting device of the Navy.
And he made a really ornate version of it
and showed it off at the Great Exhibition in 1851,
hoping to sell them to rich people.
But as far as anybody knows,
nobody ever bought a single one,
probably because you had to change the water
and feed the leeches
and also they were full of leeches.
He didn't get a government contract either.
The Navy tested,
they think the Navy tested the prognosticator,
but they ended up going with the storm glass,
which was a device championed by Admiral they ended up going with the storm glass, which was a device
championed by Admiral Robert Fitzroy. And the storm glass basically was just a bottle of mineral
water and it definitely didn't work. So they might've been better off going with the leeches
that maybe worked a little bit. I love the idea of any science that at its core isn't actually
science. It's just a clever animal. And so you just like build this beautiful device
around like 12 leeches or whatever.
Gross little worms.
And the only thing that's happening is a leech is moving.
You're harnessing the raw power of animal instinct.
That's what he thought you were doing.
Exactly.
It's like the Flintstones.
Like in the Flintstones, that's what everything was.
Yeah.
It's like the remote control for your television. It just a bird that come out like flew and turned the
the tv but it's also kind of like if the flintstones lived in a world where there were already tv
remote controls and then they built the remote control that the bird flew out of and they didn't
know that they were doing the same thing and he did really make a beautiful thing we'll put a
picture of it in the show notes you can just type in tempest prognosticator on google also because like nobody's ever named anything else that since then
i also while i was looking this up saw a bunch of pictures of leeches and i was like you know
they're kind like a leech can be a little bit beautiful like snake skin patterns and like lots
of contrast and then it's like off that freaking that freaking head. Pretty bad. All right.
You guys want to hear my fact?
Yeah.
Yeah.
It is in a similar vein because the way that we determine what the weather is, is really important to us.
And we have, it has evolved a lot over the years since the Tempest prognosticator.
And it has been kind of, messed up by COVID. And maybe not
in the way that you would expect. One of the things that was important to do and that has
continued to happen over the last too long now, since March, is that planes are not flying as
much anymore. And that has messed up weather forecasts, which is a wild thing to me that I never would
have expected.
And it turns out that every commercial aircraft since the 1970s is part of a worldwide network
of weather data collection called the Aircraft Meteorological Data Relay Report.
All of these aircrafts constantly collect data.
So 3,500 aircrafts flown by more than 40 airlines globally,
they take temperature and wind measurements
every few seconds during takeoff and landing
and every few minutes while the plane is at cruising altitude.
And so something like 680,000 observations
are sent into this every day if there isn't a pandemic.
But starting in February, the number of flights dropped 50 to 75 percent depending on the month.
And that in turn led to a lot fewer of these Amdar reports.
So a scientist named Jing Chen at Lancaster Environmental Center in the UK decided to see how this reduction in data affected meteorological
forecasts from March until May. And he found that in general, weather forecasts have worsened more
in the Northern Hemisphere, which is where you usually get more aircraft data than in non-COVID
times, because that's where most of the land is and also most of the rich people. In particular,
accuracy of surface temperature forecasts was off by as much
as two degrees Celsius in Greenland and Siberia, because those are locations that are more remote
and they don't have as many conventional meteorological stations. So airplanes are
the majority of the data they get or a lot of the data they get. Other places with a lot of air
travel like North America and Southeast China and Australia, so places where there were lots of
planes, a density of planes, they also experienced
worse forecasts.
But one area that didn't do that badly was Western Europe, which just has a really extensive
network of meteorological stations on the ground that were able to provide the data
to compensate for the loss of this Amdar network that provides just a tremendous amount
of data that we kind of just stopped getting for a while.
Yeah, I never thought about the fact that planes could have useful instruments on them besides
carrying people. But it makes sense. Well, if you're going to use all this fuel to get people
from place to place, you might as well get as much utility out of that as possible.
Yeah, and this goes back a long, long way. This first happened like when pilots first started happening basically so the weather
bureau would pay pilots in 1919 they started doing this to fly with little things called
aerometeorographs that would be attached to the plane's wings and you'd get a 10 bonus for every
thousand feet you flew over 13 000 feet oh do they still get bonuses or is it just
something they do? I don't think so. Yeah, no. But I love the idea that you just get paid to fly
because the weather people are like, holy crap, we can find out what the weather's like up there.
It's amazing. So Sarah, you've either got Sam's fact that Dr. George Merriweather, I can't believe
his name was Merriweather, invented the Tempest Prognosticator to try and forecast storms using leeches.
Or my fact that COVID is affecting weather forecasting because less commercial planes are flying and we're not getting all of that good Amdar data.
It's harder and I have to do it by myself.
I'm going to give Sam three points and Hank two points because I didn't know about either of these things before.
And even though Amdar is going to change how I view plane travel, I love the leeches.
And I would love to find an old leech machine and restore it and just have it as like, this is my leech machine.
And now it's time for Ask the Science Couch, where we've got some listener questions for our couch of finely honed scientific minds.
This is from at gingersnap273.
Is acid rain a real thing I should actually be concerned about?
Uh, yeah, but less so, right?
And it's bad for buildings and not necessarily as bad for people, right?
Is that the thing?
Well, it's bad for people in that it's bad for forests.
But, like, you don't have to be worried about it.
You don't have to be worried about like getting your face melted off by a rain.
Yeah.
So there's different amounts of acidity.
It's all based on the pH scale, which you've probably heard about if you've ever taken a chemistry class, which I'm sure people who have listened to SciShow Tangents have or are going to at some point in their life because they're a bunch of nerds.
But lower numbers on the pH scale are more acidic and higher numbers are more basic. So seven
is neutral, pure water. All rain is slightly acidic because there's carbon dioxide in the
atmosphere and that dissolves in the water to make carbonic acid, sort of like how our blood
is slightly acidic. Rain is usually around a pH of
about 5.6. And acid rain is more acidic than that. It's a pH of about 4 instead of 5.6. And
based on the way the pH scale works, that's like a 10 times difference. It's a logarithmic
related scale. And it's caused naturally by things like volcanoes erupting or decay of vegetation,
but also things that we do as humans, like power plants that release gases or cars that release
emissions, particularly gases like sulfur dioxide and nitrogen oxides lower the pH of rain. It can
neutralize materials that can be washed away by acid rain so that's
why like certain stones the acid will react with the minerals and neutralize but then wear away
at the building material four is like less acidic than orange juice yeah so like okay orange juice
won't melt you yeah you could put orange juice on face, but you wouldn't want to put it in your eyes. It wouldn't hurt them, but it might hurt, you know?
But it is enough to harm things like insects or fish whose skin is less protective against water.
When I was a kid, acid rain was like the scariest thing.
Like in the 90s, you'd hear about it all the time.
So what happened to it? Did we just get like, that's going to happen. We can't do anything about it. No, we created really pretty tight regulations on the emission
of sulfur dioxide from coal plants, which is the primary place that sulfur dioxide was coming from.
So we created a cap and trade scheme where it was like, you basically can only release a certain
amount. And if you release more than that, you have to buy it from a different power plant that
has figured out how to filter out or scrub out the sulfur dioxide.
And that was extremely effective in lowering sulfur dioxide, which actually did a really
good job of decreasing the amount of acid rate in America.
A policy was happened.
Yeah, it worked.
Cool.
Yeah.
Regulations.
Turns out we can combat climate change
and like the
effects we're having
if we
enact policy
if we
if we try hard
yeah
and it was expensive
for the coal
coal plants
and they didn't want to do it
and then they did it
and we're okay
that and the hole
in the ozone layer
we also fixed that
I mean we didn't fix it
but it's better
if you want to ask
the science couch
your question
you can follow us
on twitter at scishShowTangents,
where we tweet out our topics for upcoming episodes every week.
Thank you to at NeonMolly, at SpaceHikes,
and everybody else who tweeted us your questions for this episode.
Final scores!
Sari with 10, Hank with 13, and Sam with 14,
which means, Sam, you get another chin coin.
I already had one? I think so, yeah. So you got two, and I've got one, and Sari's, you get another chin coin. I already had one?
I think so, yeah.
So you got two, and I've got one, and Sari's got none.
Oh, no.
If you like this show and you want to help us out, it's very easy to do that.
You can leave us a review wherever you listen.
That's helpful, and it helps us know what you like about the show.
You can also tweet us people you might think would be good guests for SciShow Tangents,
because we're thinking about having more guests in the future.
Or you can tweet out your favorite moment from the episode. Finally, if you want to show your love for SciShow Tangents because we're thinking about having more guests in the future. Or you can tweet out your favorite moment
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Finally, if you want to show
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you can just tell people about us.
Thank you for joining us.
I've been Hank Green.
I've been Sari Reilly.
And I've been Sam Schultz.
SciShow Tangents is created
by all of us and produced
by Caitlin Hoffmeister
and Sam Schultz,
who edits a lot of these episodes
along with Hiroko Matsushima.
Our social media organizer
is Paola Garcia Prieto.
Our editorial assistant
is Debuki Chakravarti.
Our sound design
is by Joseph Tuna-Medish.
And we couldn't make any of this
without our patrons on Patreon.
Thank you.
And remember,
the mind is not a vessel
to be filled,
but a fire to be pretty strong to contend with extreme weather
since they can't really like escape or hide from it because they're stuck outside in the ground
one of the things that can impact their resilience is butt rot,
a disease caused
by fungi
that eat away
at the butt
of the tree,
which is where the trunk
gets a little bit thicker
at the bottom
and intersects
with the ground,
which apparently is like
the like secret
weak spot of trees.
From the outside,
the trees don't show
any sign of butt rot,
but they rot away
on the inside,
making them weaker
and prone to topple over in bad weather.
And everybody knows that a tree's butt is on the inside.
Mm-hmm.
Every science is worth a salt.
If ever we do a conference again,
and if we do like a signing line or something,
I want that to be the secret code,
that people will be like,
where's the tree's butt?
On the inside!
Yeah.
We need a super fan chance of some sort.
Yeah.