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  • You've probably heard about a Scientific Revolution in Europe, lasting from roughly

  • the mid-1500s to 1700.

  • And we have some very good stories to tell from this period.

  • But first, let's talk historiography, or how historians have told history differently

  • over time.

  • The trope of the Scientific Revolution is a useful tool for organizing events in our

  • story.

  • But it also obscures other possible framings.

  • In factas we pointed out in episode onethe termsciencewasn't used in its contemporary

  • sense until the mid-1800s!

  • So did a “Scientific Revolutiontake place at all?

  • [INTRO MUSIC PLAYS]

  • Philosopher, historian, and trained physicist Thomas Kuhn had a lot of thoughts on what

  • makes a revolution in science.

  • He wrote a book called The Structure of Scientific Revolutions, published in 1962.

  • And in it, Kuhn argued that different sciences undergorevolutionswhen scientists

  • gather enough data that they can't explain using their current paradigm, or unstated,

  • world-organizing theory about how the universe works.

  • Kuhn's ideas have animated a lot of debates in the history and philosophy of science,

  • so let's make sure we're clear about them.

  • Normal science is the kind of knowledge that professional scientistsor natural philosophersmake

  • most of the time.

  • They have a combined research program and philosophy about what counts as valid knowledge

  • called a paradigm.

  • Anomalies are things that the paradigm can't explain.

  • Too many anomalies andwe have a scientific revolution!

  • Galileo and Newton overturn Aristotle!

  • Einstein overturns Newton!

  • Or, jumping back to the mid-1500s, Copernicus overturns Ptolemy!

  • Historians of science often associate the start of the Scientific Revolution with a

  • Polish politician and all-around smarty-pants named Nicolaus Copernicus.

  • (Nickkeep waiting in the green room until we need you!)

  • But we could just as easily begin with another NickNicole Oresme.

  • Oresme argued for heliocentrism, or the theory that the earth might revolve around the sun,

  • one hundred and sixty six years before Copernicus!

  • Oresme was born around 1320 in Normandy, France.

  • He attended the College of Navarre, rather than the prestigious University of Paris,

  • so he probably came from a humble background.

  • But he was very intelligent, becoming grand master of the College of Navarre and then

  • a bishop.

  • Oresme spent a lot of time trying to answer one of our big questions: “where are we?”

  • He went about this rationally, for example, lining up arguments for or against an earth

  • that rotates on its axis in his book Livre du ciel et du monde, or The Book of Heaven

  • and the World, in 1377.

  • He noted that it made more sense for the earth to move than for all of the heavens to move

  • around the earth.

  • Nevertheless, Oresme concluded that the bible dictates that the earth must remain still

  • and chill.

  • So close!

  • Oresme also criticized astrology as a predictive science, noting that the lengths of days don't

  • line up perfectly with years, making the recurrence of certain astronomical phenomena very rare.

  • My dude even noted that farmers and sailors are better at predicting the weather than

  • astrologers!

  • And Oresme contributed a lot to math and physics.

  • He pioneered the use of mathematical graphs to describe how objects move through space

  • over time.

  • And he scooped Galileo on the physics of falling objects, again by well over a century!

  • Oresme's theories could have helped jump-start a revolution in the physical sciencesbut

  • they didn't.

  • Why?

  • Maybe because he didn't really push them, and his contemporaries didn't see them as

  • particularly important.

  • A little over a century later, another polymath named Copernicus worked on some similar problems

  • with more radical results.

  • Historiography strikes!

  • There is so much cool history out there, historians have to make hard choices about when tostart

  • a big idea and whose name to pin to it.

  • Okay, Nicknow we're ready for you!

  • Nicolaus Copernicus was born in 1473 in what is now Poland to a family of well-off merchants.

  • We don't have a ton of documents by Copernicus, up until his major work on astronomy.

  • But we know that he went to school around 1500 to be a humanist.

  • Copernicus probably spoke Latin, German, Polish, Greek, and Italian, and he translated Greek

  • poetry.

  • He studied arts, math, and astronomy at the University of Kraków.

  • And he visited the Universities of Bologna and Padua.

  • Along with the liberal arts, Copernicus also studied medicine.

  • He would later work mostly as a sort of private physician-slash-economist for the high-ups

  • back in Poland.

  • But the reason that we're talking about this Nick is that he took up astronomy.

  • He decided that retrograde motionplanets seemingly traveling around in loopty-loops!—was

  • anastronomical monster,” an obvious impossibility.

  • Copernicus also repudiated Ptolemy's “equant point”—an imaginary mathematical point

  • that helped earlier astronomers see planets move at uniform speeds.

  • Ultimately, Copernicus proposed a heliocentric universe of the cosmos: in this model, the

  • earth rotates on its axis once every twenty-four hours, and the Earth revolves around the sun

  • once every year.

  • Copernicus first wrote about heliocentrism in his Commentariolus, or mini-commentary,

  • in 1514.

  • He was afraid that many peoplebeing devout Aristotelians, Ptolemy-ians, and Christianswould

  • ridicule his life's work.

  • Most people thought heliocentrism was wrong, and many found the idea downright blasphemous.

  • So for years, the only source of Copernicus's radical new theory was the outline that his

  • protege Rheticus published in 1540, called Narratio prima, or The First Account.

  • When he was facing the end of his life, however, Copernicus relented.

  • On his deathbed in 1543, he received the first copy of his book, which I'm going to attempt to pronounce now...

  • De revolutionibus orbium

  • lestium, or what all the cool cats callDe rev”—On the Revolutions of the Heavenly

  • Spheres.

  • According to legend, Copernicus woke up from a coma, took one look at the published De

  • rev, smiledand died peacefully, knowing that his great work would finally reach a

  • wider audience.

  • And also that he couldn't get persecuted for it cause he was super dead!

  • As happens often in the history of science, Copernicus's contribution wasn't really

  • coming up with a new idea, but taking a non-mainstream idea and explaining it in a way that made

  • people paid attention.

  • In proposing a sun-centered cosmos, Copernicus was working on a theory that had never really

  • caught on in Europe but had also never really gone away.

  • Besides his fellow-Nick, Oresme, Copernicus knew about the heliocentric model espoused

  • by the ancient Greek astronomer, Aristarchus of Samos, who was born around 310 BCE, about

  • a decade after Aristotle died.

  • Aristarchus was waaay ahead of his his time: he put the sun in the center of the solar

  • system, and then put the planets in their correct order around it.

  • He guessed that other stars were like the sun, just farther away.

  • He even deduced that the earth rotates on its axis.

  • But most astronomers rejected Aristarchus's ideasuntil Copernicus.

  • If there's any guy in history that told us where we were the best, it was that greek

  • dude that everyone forgot about.

  • But people paid attention to Copernicus.

  • ThoughtBubble, shine some light on why his book about revolutions was revolutionary:

  • De rev was not based on new observations, and it did not prove heliocentrism.

  • In it, Copernicus hypothesized that his theory must be a better-fit model for the cosmos

  • than the geocentrism of Ptolemy, because a sun-centered model was morepleasing to

  • the mind.”

  • And Copernicus's theory was so pleasing!

  • In his heliocentric model, retrograde motion disappeared.

  • Copernicus dictated a definite order of the planets:

  • Mercury, Venus, Earth, Mars, Jupiter, and then Saturn.

  • Copernicus's theory also made the universe twenty times wider across than Ptolemy.

  • Which turned out not to be big enough, turns out the universe is very bigbut still so big that most people didn't believe it.

  • But Copernicus didn't revolutionize everything about the ChristianAristotelian cosmos.

  • For one, Copernicus's math was a disaster.

  • And, in his theory, the Earth and other planets revolved around a center point that was near

  • the sun, but wasn't exactly the sun.

  • And the planets were still embedded in crystalline spheres.

  • For Copernicus, the idea that the earth rotates on its axis was thethird motion.”

  • That is, along with the rotation of the whole sphere, defining a year, and a transition

  • from day to night, defining a day.

  • The third motion explained the other stuff.

  • Thanks Thought Bubble, Nick's grand theory fit into the first twenty-four pages of his

  • book.

  • The rest was dense and, frankly, not very revolutionary astronomy.

  • Copernicus used Ptolemy's fifteen-hundred year old data to build his system.

  • So maybe Copernicus wasn't a revolutionary within science, just one more in a long line of good astronomers.

  • The Scientific Revolution is sometimes positioned as a break in Europe between a Christian concept

  • of knowledge and a secular or worldly one.

  • Certainly, Copernicus's cosmos doesn't look like Dante's.

  • But if De rev was a break, it wasn't very sharp.

  • Copernicus was a diplomat, a religious person, and generally risk-averse.

  • He was a canon in the church—a position just below bishop.

  • He dedicated De rev to Pope Paul III.

  • Protestant leader Martin Luther did reject heliocentrism.

  • But this didn't become a public controversy until Galileo's time, a hundred years later.

  • In fact, Copernicus's publisher, Andreas Osiander, added an anonymous preface to De rev,

  • saying that the book was only a thought experiment:

  • it didn't need to be true to help astronomers better understand the math behind the motions

  • of the planets, and thus make better predictions about them.

  • It didn't even need to be probable.

  • This wasnot exactly a battle cry challenging conventional cosmology.

  • Regardlessaccording to a common version of the history of sciencethis is how the

  • Scientific Revolution started.

  • Was it a revolution?

  • The majority of people on earth didn't know the Scientific Revolution was starting when

  • De rev appeared.

  • They didn't see any armies forcing them at gunpoint to think about the fact thatplot

  • twistthe earth revolves around the sun.

  • Thebattlesabout this, when they occurred at all, took place in the halls of universities

  • or between the covers of books that most people couldn't even read!

  • It's true that, by 1700, European thinkers had pretty much moved away from the science

  • of Aristotle and Ptolemy, or at least many parts of it.

  • But the concept of the Scientific Revolution comes from the nineteenth century.

  • Historians looked back and said:

  • How Europeans answered big questions such as 'where are we?'

  • really started to change around the middle of the 1500s.

  • By the middle of the 1600s, natural philosophers had developed new methods of making all kinds

  • of knowledge.

  • We dub this shift, 'the Scientific Revolution!'”

  • This idea of a break makes sense when you remember the motto of the Royal Society, “nullius

  • in verba”—don't believe something just because Aristotle said it!

  • Natural philosopher such as Francis Bacon and Robert Boyle pushed for experiments and

  • published their results in journals.

  • And more people had access to books like De rev, thanks to Gutenberg.

  • So you can call it either way: a revolution didn't take place, because the number of people

  • involved at the time was small, and not much changed in daily life due to new ideas in

  • science.

  • Or a revolution did take place, because Galileo got in trouble for looking at Jupiter, Newton

  • invented calculus, and French and English natural philosophers could argue via journal.

  • We're gonna talk about all these stories soon!

  • In conclusion: people named Nick make the best astronomers.

  • Two of them helped catch medieval Europe up to the astronomical knowledge level of India,

  • or classical Mesoamerica.

  • (Remember how the Maya were really, really into astronomy, centuries ago?)

  • So the idea oftheScientific Revolution, in early modern Europe, doesn't make as

  • much sense as the idea of many scientific revolutions in different places at different

  • times.

  • And finallyand this is so critical!—just as science is an active area of research today,

  • history is too.

  • Historians have to choose what stories to tell and how to most accurately frame them

  • for their own times and places.

  • Next timewe'll accompany science-boss Tycho Brahe on a duel and meet Copernicus's

  • historical brother from another mother, Johannes Kepler.

  • Crash Course History of Science is filmed in the Dr. Cheryl C. Kinney studio in Missoula, MT and it's made with the help of all these 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 Sexplanations, How to Adult, and Healthcare Triage.

  • Hey, if you'd like to keep Crash Course free for everybody, forever, you can support the series at Patreon; a crowdfunding platform that allows you to support the content you love.

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

You've probably heard about a Scientific Revolution in Europe, lasting from roughly

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科學革命。科學史速成班#12 (The Scientific Revolution: Crash Course History of Science #12)

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    林宜悉 發佈於 2021 年 01 月 14 日
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