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  • These days, alchemy gets a bad rap.

  • In fantasy stories, charlatans in fancy robes promise to turn lead into gold.

  • But real alchemists weren't just mystical misers.

  • They were skilled experimentalists, backed by theories of matter.

  • And they played a huge role in the development of knowledge about one of our fundamental

  • questions: “what is stuff?”

  • Do chemists today spend a lot of time trying to turn lead into gold?

  • Nobut, in part they are the inheritors of a wealth of knowledge created by alchemists

  • who were trying to turn lead into gold!

  • Why did they keep doing that?

  • Did they really think it would work?

  • Was it some science experiment?

  • Or a religious ritual?

  • Yes! All of those things.

  • Today, we'll meet some alchemists and consider just what the heck they were doing all day

  • with metals, and how they sought to understand stuff.

  • [Intro Music Plays]

  • The wordalchemy,” which is where we get the wordchemistryfrom, is a bit

  • of mystery.

  • It might meanthe black earth,” symbolizing Egypt, but it might not.

  • Either way, all of these words were used in Europe before 1600 to describe the same system.

  • Let's define alchemy as a way of thinking philosophically about stuff by changing it.

  • This included older astrological ideas alongside new ones derived from experiment and observation.

  • Alchemy parallels the Scholastic medical tradition we looked at last time.

  • Both systems spanned across Eurasia and relied on books.

  • But the alchemists had different social norms, or ideas about how someone creating knowledge

  • should act.

  • Alchemists did publish books, but typically encoded their philosophies in complicated

  • allegories, or stories wherein the characters and actions stand for something other than

  • what they appear.

  • This essentially rendered whole alchemical systems secret except to their own friends.

  • They used code words called Decknamen: sotinmight literally mean the metal tin

  • in one book, but serve as a code word for silver in another.

  • The books were illustrated, but many of the images were symbols masking their true meanings.

  • The good and bad thing about the Decknamen system was that anyone could read any proto-scientific

  • treatise onwhat is stuff?” and come away with almost any conclusion.

  • Good thing today we have the internet to help everyone agree on scientific questions based on evidence... right?

  • A lot of alchemical books focused on transmutation, or changing metals into other metals.

  • In theoryall the way back to Aristotletransmutation mimicked a natural process: metals were compounds,

  • formed deep in the earth when different quantities of sulfur and mercury were crushed together.

  • Miners had been working with metals for yearsdigging them up and then heating them to purify them.

  • The difference for alchemists though was that transmutation meanthackingthis whole

  • process by doing it artificially.

  • Butthe alchemical metals are not compounds of anythingthey're elements!

  • So how did the alchemists take non-compounds andreadthem as compounds?

  • The alchemists had problems obtaining pure samples.

  • When they heated up chunks of metal, these would bubble and change color based on impurities,

  • meaning tiny bits of other elements.

  • But, alasmetals, when isolated, don't actually break down into sulphur and mercury.

  • There were two kinds of alchemical metals: the noble metals were gold, which represented

  • the sun.

  • And silver, which represented the moon.

  • The base metals included mercury, which represented the planet Mercury, copper for Venus, iron

  • for warlike Mars, tin for Jupiter, and lead for slow sad Saturn.

  • In fact, our name for the metalmercurycomes from this alchemical association with

  • the Greek messenger god!

  • Agents of transmutation also fell into two categories: particulars, which only did one

  • thingfor example, change copper into silverand universals, meaning thephilosopher's

  • stone.”

  • That's philosopher's stoneno sorcerers involved, American Harry Potter.

  • This mysterious stone could change any base metal into gold.

  • The quest for the universal transmutation agent was called chrysopoeia, or, literally,

  • make into gold.”

  • To get started, a “chrysopoeianwould combine the right ingredients in an egg-shaped

  • vessel called an alembic, and then heat the mixture up for a long time.

  • What were the right ingredients to make the philosopher's stone?

  • Alchemists disagreed.

  • The fact that they didn't even agree on what the philosopher's stone actually was,

  • pretty much symbolizes the whole system.

  • Chrysopoeia required fine-tuning the practice of metallurgy: alchemists had to heat ingredients

  • for days on end, controlling the temperature precisely without the aid of modern lab equipment,

  • or even a thermometer!

  • It was difficult, sweaty work.

  • Eventually, the mix of ingredients would turn black, then white, then yellow, and finally

  • red.

  • At this point, if your oven hadn't explodedyou won!

  • You now had a lump of red substance that, when heated up with base metals, changed them

  • into gold.

  • Supposedly.

  • The search for the philosopher's stone produced new alchemical theories and felt like a wonder,

  • inspiring generations of experimenters, even if it never quiteworked.”

  • Alchemy persisted because transmutation clearly produced something, including new compounds.

  • The problem is that we don't always know what it produced, because of the whole secret

  • code thing.

  • Luna fixa”, for example, was a dense white metal, that was corrosion resistant,

  • had a high melting point, and was pretty soft.

  • Was it platinum, white gold, or something else entirely?

  • But alchemy was never only about metals.

  • The human body, for example, was understood as an alchemical workshop:

  • chemical reactions happened in the organs, transmuting one kind of stuff into another.

  • This is still pretty amazing!

  • We eat stuff that is not at all humanat least hopefullyand then that stuff somehow

  • becomes us.

  • In an alchemical framework, illnesses were reactions gone wrong.

  • So while the alchemists included metallurgists, mine directors, goldsmiths, and natural philosophers,

  • they were often physicians,

  • interested in making efficacious compounds called pharmaceuticals, or chematria.

  • In fact, alchemy was a system for producing useful materials from chematria to alcohol,

  • alloys, pigments, perfumes, and cleaning products.

  • Noblewomen alchemists, tasked with caring for the health of the workers in their husbands'

  • manors, played a major role in producing therapeutics.

  • These noblewomen set up production facilitiesproto-labsand expanded the repertoire of alchemical products

  • which could be sold.

  • And the system itself was heavily gendered, metaphorically, which we can see in many gorgeous

  • illustrations of allegorical kings and queens of heaven, the kings and queens of stuff.

  • One of the wackier life-sciencey practices that came out of the ancient and medieval

  • search to understand therapeutic compounds

  • was palingenesis, orlife again”: the idea that you could bring things back to life

  • by burning them, and then freezing their ashes.

  • Alchemists spent a lot of time burning and freezing leaves.

  • Did palingenesis work?

  • Why don't you go try it and see if you get better results!?

  • At least, it might make you pay careful attention to living things and what stuff they seem

  • to be made out of.

  • On second thought I'm not gonna encourage you to go burn stuff.

  • Just as there are multiple sciences today, there were multiplealchemiesin medieval

  • Eurasia.

  • Chinese alchemy was tied into ideas about the earth itself.

  • Remember how, in Chinese natural philosophy, the earth was one living organism?

  • Chinese alchemists detected its vital channels of energy transmission using magnets, formalizing

  • that system of earth magic called feng shui.

  • This work eventually led to the invention of gunpowder.

  • Chinese alchemy also included a search for immortality called waidan.

  • But still nosorcerers,” sadly.

  • Mostly, waidan was about self-experimentation and diet.

  • Indian alchemy focused on medicine, on forms of mercury, and on how to preserve health

  • and hopefully create an undecayable body.

  • We've talked before about how an Ayurvedic textbook or samhita had a whole chapter on

  • aphrodisiacs and another on toxicology.

  • Alchemy supplied a way of developing these love potions and poisons.

  • Islamicate alchemy, meanwhile, blended Aristotelian, Chinese, and Indian alchemical practices.

  • bir ibn Hayyān, born in Persia in 721 and known in Europe asGeber”,

  • was credited with authoring three thousand texts!

  • These included a version of the Emerald Tablet, a supposedly ancient Greek text that included

  • a guide to creating the philosopher's stone.

  • Hayyan also worked on mineralogy, transmutation, and medicinal elixirs and invented new equipment.

  • Like many alchemists, Hayyan often wrote allegorically, trying in his own words to intentionallybaffle

  • most readers except thosewhom God loves.”

  • But the person most famous today for his work in alchemy is the Swiss physician and iconoclast

  • Paracelsus,

  • born in 1493, who also was called Theophrastus Bombastus von Hohenheim.

  • Think Gregory House meets Victor Frankenstein meets Miss Cleo.

  • In addition to his general irascibility, Paracelsus is famous today for the phrasethe dose

  • makes the poison.”

  • Paracelsus also believed that the philosopher's stone was a “universal solventcalled

  • the alkahest,

  • which was derived from lime, alcohol, and carbonate of potash and could theoretically

  • dissolve anything, even gold.

  • And, most radically, Paracelsus introduced salt as a third element that made up all metals.

  • Paracelsus was a critic of university natural philosophers and physicians.

  • He saw these Scholastics as likely to mistake textual generalizations for truths.

  • He admonished his alchemical colleagues not to trust the words of the ancient masters.

  • But then he became a master himselfsomeone you could write books in the style of.

  • You could say that alchemy, like other knowledge-making systems, was torn between text and experiment

  • that is, between loyalty to tradition and iconoclasm, and a return to basic observation.

  • Thus, even if alchemical books were often secret-concealing gibberish,

  • they were important in supporting a long-term rational debate about the true nature of stuff.

  • In fact, the most famous product of alchemy was a wondrous invention that most people

  • don't think of as alchemical.

  • Help us out, ThoughtBubble:

  • Johannes Gensfleisch zur Laden zum Gutenberg, born in Germany in 1468, was a metallurgist

  • who invented a process for mass producing movable type.

  • Gutenberg made his type from an alloy of lead, tin, and antimony, creating a more durable

  • system.

  • He also pioneered working with oil-based ink and made tweaks to the common cheese press

  • to make his printing press.

  • His real achievement, though, was bringing all of these together into a system that made

  • printing books economical.

  • And I mean way more economical than having rooms full of monks hand-copying manuscripts.

  • Economical printing meant better-duplicated texts with fewer errors.!

  • Knowledge circulated not simply thanks to personal travel, which was slow and somewhat

  • random, but as discrete knowledge.

  • Some of this knowledge was intentionally secret codewhich presents a problem for historians

  • today.

  • How do we figure out what the alchemists meant when they wrote things like, “The wind blows

  • over the marriage of the moon and Saturn?”

  • How do we interpret alchemical recipes encoded entirely in pictures?

  • Thanks Thought Bubble!

  • So what happened to alchemy?

  • Parts of it became chemistry, which we'll get to later.

  • But alchemy also became increasingly seen as dirty, dangerous, unsavory, low-class,

  • and lacking a classical pedigree, unlike, say, astronomy.

  • And, in Europe, alchemy was tied to a geocentric cosmology that goes out of fashion in the

  • sixteenth century.

  • There were notable alchemists in the seventeenth century, including Isaac Newton.

  • But by this time, chemists wanted a more scientific society.

  • Publicly, alchemy was attacked as superstition, even as practitioners keep doing it in private.

  • Alchemy went underground for most of the eighteenth century, maintained in secret societies, before

  • dying out.

  • The once-famous book De re metallica, or Concerning the Nature of Metals, was first translated

  • into English by classicist Herbert Hoover

  • who was also a presidentand his wife, Lou Henry Hoover, in 1912.

  • Fascinating!

  • Next timepack your mortarboard hats and masonry tools: we're tracking the rise of

  • the university and the cathedral!

  • Crash Course History of Science is filmed in the Dr. Cheryl C. Kinney studio in Missoula,

  • Montana and it's made with the help of all this nice people and our animation team is

  • Thought Cafe.

  • Crash Course is a Complexly production.

  • If you wanna keep imagining the world complexly with us,

  • you can check out some of our other channels like Scishow, Sexplanations, and Healthcare

  • Triage.

  • And, if you'd like to keep Crash Course free for everybody, forever, you can support

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  • Thank you to all of our patrons for making Crash Course possible with their continued

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These days, alchemy gets a bad rap.

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錬金術:科学の歴史 #10 (Alchemy: History of Science #10)

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    林宜悉 に公開 2021 年 01 月 14 日
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