Everything Everywhere Daily: History, Science, Geography & More - Rare Earth Elements (Encore)
Episode Date: April 17, 2025Modern society is completely dependent on a set of technologies that include computer chips, fiber optic cables, lasers, video screens, electric motors, and batteries. All of those things are depen...dent on a small category of chemicals called rare earth elements. Their importance in technology has made them a focal point of international trade and politics. Learn more about rare earth elements and how the world has become completely reliant on them, on this episode of Everything Everywhere Daily. Sponsors Mint Mobile Cut your wireless bill to 15 bucks a month at mintmobile.com/eed Quince Go to quince.com/daily for 365-day returns, plus free shipping on your order! Stitch Fix Go to stitchfix.com/everywhere to have a stylist help you look your best Tourist Office of Spain Plan your next adventure at Spain.info Stash Go to get.stash.com/EVERYTHING to see how you can receive $25 towards your first stock purchase and to view important disclosures. Subscribe to the podcast! https://everything-everywhere.com/everything-everywhere-daily-podcast/ -------------------------------- Executive Producer: Charles Daniel Associate Producers: Austin Oetken & Cameron Kieffer Become a supporter on Patreon: https://www.patreon.com/everythingeverywhere Update your podcast app at newpodcastapps.com Discord Server: https://discord.gg/UkRUJFh Instagram: https://www.instagram.com/everythingeverywhere/ Facebook Group: https://www.facebook.com/groups/everythingeverywheredaily Twitter: https://twitter.com/everywheretrip Website: https://everything-everywhere.com/ Learn more about your ad choices. Visit megaphone.fm/adchoices
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The following is an encore presentation of Everything Everywhere Daily.
Modern society is completely dependent upon a set of technologies that includes computer chips,
fiber optic cables, lasers, video screens, electric motors, and batteries.
All of those things are dependent upon a small category of chemicals called Rare Earth Elements.
Their importance in technology has made them a focal point of international trade and politics.
Learn more about Rare Earth elements and how the world has become completely reliant on them
on this episode of Everything Everywhere Daily.
What if your perceptions about the past were wrong?
ThruLine is a podcast that takes you back in time to uncover the parts of the story that may have gone unnoticed.
It effectively turned day into night.
And how it shaped the world now.
Time travel with us every week on the ThruLine podcast from NPR.
So let's start out with the fundamentals.
What is a rare earth element?
There are 17 rare earth elements.
the periodic table. The two lightest are scandium and itrium, which are located in the third
period, or the third column of the periodic table. The other 15 are the lanthanine elements.
If you've looked at a periodic table, you might remember that there's a section of elements
that are separated from the rest and form two rows at the bottom. The lanthanides are the top
row of those two rows. The 15 lanthanide elements are lanthanum, serium, presiodymium, neodymium,
Prometheum, Samarium, Euryum,
gadolinium, terbium, dysprosium,
holmium, erbium, thulium, eturbium, and lutecium.
And I just want to say that after reading that list,
my hat goes off to Tom Lairr.
So I think it's fair to say that, for the most part,
none of us deal with these elements on a daily basis.
They're all soft, silvery metals that are rather heavy.
However, I don't want to get into a chemistry analysis of each element
because that would be painfully boring,
and most of you would wind up pouring wax in your ears.
I will just add as a fun fact that four of those 17 elements are named after the tiny
village of Iterby in Sweden.
What's really interesting about rare earth elements is their importance in the world economy,
because they are really, really important.
If you remember back to my previous episodes on specific elements in the periodic table,
most elements were discovered in the 19th and early 20th centuries.
It became a lot easier once the periodic table of elements was set
and it was possible to see where the holes were to fill them in. Here I should note that most of the
rare earth elements are not in fact all that rare. To be sure, they aren't as common as iron or
silicon, but most of them are on par with other metals like tin or gold. The least common element
is prometrium, which actually is quite rare and radioactive, but the most common element is
cyrium, which is the 25th most common element in the earth's crust. The rare earth elements
weren't really that big of a deal prior to the year 1965. They were more of a curiosity and they didn't
have that much economic value. So what happened in 1965? And the answer is, color television.
It turned out that one of the key components for color TVs was the element, Europium. As color TVs were a
huge thing for TV manufacturers, there was suddenly a huge rush to find Europium. The mineral
Monzonite would often have a european content of about 0.05%. However, a location was discovered in
California, just over the border from Las Vegas, which had a europium content of a whopping
0.1%. Over the years, more and more uses were found for rare earth elements. One of the biggest
uses was found in extremely strong natural magnets, in particular neodymium magnets. They were
discovered in 1984 by General Motors, and they are the strongest commercially available natural
magnets that you can buy today. They can support thousands of times their own weight and have applications
in whatever you can use magnets for. You can either get more magnetism for something the same size,
or the same amount of magnetism for something much smaller. Neodymium magnets are something
you're probably familiar with, but the applications for rare earth elements are almost endless.
Almost every technology product you can think of has at least some trace amounts of rare earth
elements in them. Lasers, hard drives, MRI machines, batteries, high-intensity lights, computer
chips, fuel cells, nuclear reactors, LEDs, solar panels, wind turbines, gen engines, various
military equipment, everything. Whatever you are listening to this podcast on right now has
some rare earth elements in it. So it shouldn't be too difficult to see just how important these
elements are to the world economy. No more rare earth elements, no more modern technology. So,
where do these rare earth elements come from? Before World War II, what little production of rare
earth elements there was all came from easily minable sands in India and Brazil. Because it was sand,
it didn't require a huge operation to extract the ore, and there wasn't a lot of demand anyhow,
so not much needed to be produced. Through most of the 1950s, most of the world's production
was located in a single location, the Steen-Komths-Krawl mine in South Africa. That shifted when the aforementioned
Mountain Pass mine opened in California. Again, this single mine was responsible for most of the
rare earth mineral production in the world for several years. Through the 1980s, the production of
rare earth elements was rather low. In 1980, there was only about 30,000 metric tons of rare earth
elements produced worldwide from mining operations, with about half that coming from the United
States. Then in the 1980s, Chinese leader Deng Xiaoping made what was in hindsight a brilliant
decision. He made the production and processing of rare earth minerals a priority for China. As he noted
in 1992, quote, the Middle East has oil, China has rare earths. That there was going to be a
massive increase in demand for rare earth elements was a pretty easy prediction. Even in the 80s and
90s, more and more technologies were finding uses for rare earth elements. Chinese production began
expanding dramatically throughout the 1990s and U.S. production began to decline. By 2010, World
Worldwide production was at 130,000 metric tons per year, and China's share of the global market
was over 97%. While China had a near-monopoly in rare earth element production, it wasn't because
China had all the rare earth elements. China certainly does have a lot of them, but it's estimated
they only have about a third of the world's reserves. The reason why their share of the global
market was so great had more to do with prices than with the number of rare earth elements
available. China was able to undercut global prices, which drove many non-Chinese producers bankrupt,
including the Mountain Pass Mine in California. However, global demand for rare earth metals hasn't
decreased. Since 2010, global production has almost doubled, but production in China has remained
somewhat flat. They are still the largest producer in the world by a wide margin, but now other
countries have been ramping up their own production. Demand for rare earth elements will probably
increase even faster in the not so distant future. Electric cars are heavily dependent on rare
earths. Electric motors require their use for magnets. A Toyota Prius has about 25 pounds or 10
kilograms of lanthanum. Likewise, generators and windmills need rare earth metals, as do solar
panels and even the magnets in nuclear fusion reactors. While the world isn't running out of
rare earth metals, many companies are working on alternative technologies which eliminate or reduce
the amount of rare earth elements required. However, it's impossible to totally eliminate them.
Likewise, nations are starting to explore for more rare earth elements. The United States, Australia,
Canada, South Africa, and many other countries have begun searching for more rare earth deposits.
It can be difficult to do because you can't just look for ore sticking out of the ground like
you might for other metals. The mountain pass mine in California was considered good because it had a whopping
0.1% European. And the best mine in the world is one in China,
which has a whopping 0.2%. A massive fine was made in Afghanistan back in 2011, but so far it hasn't been
possible to begin mining, and it isn't even known if it will begin anytime soon.
The United States military has been trying to stockpile strategic reserves of rare earth metals.
It's been said the total U.S. reserves could fit in a suitcase. This has included reopening
the Mountain Pass mine in California, which was mothballed in 2015.
Another program has been increasing the recycling of rare earth metals. Because the
elements, they can be efficiently recycled. As old electric cars and other electronics become
retired, this will become more and more important as it will recover more and more rare earth
elements. In the very distant future, it might even be entirely possible to find some of these
elements on asteroids or even on the moon. These strange elements with funny names have become
vital to our modern world, and will become even more important in the not-so-distant future.
The elements, which were once novelties less than a century ago, now have become indispensable.
The executive producer of Everything Everywhere Daily is Charles Daniel.
The associate producers are Austin Oakden and Cameron Kiefer.
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