Astral Codex Ten

Galileo

28 min read

Galileo

Article

Galileo is a recurring person in the Astral Codex Ten archive, appearing 3 times across 3 issues between February 15, 2023 and July 14, 2023. The archive places it in contexts such as “take up the mantle of Galileo”; “arguments about how the Catholic Church wasn’t anti-science and Galileo had it coming”; “Take your pick. Galileo, Einstein, Smith, Marx, Goodall, Chomsky, Curie… all the people who took to the life of the mind like fish to water”. It most often appears alongside Cocaine Bear, Eliezer, Europe.

Metadata

  • Category: People
  • Mention count: 3
  • Issue count: 3
  • First seen: February 15, 2023
  • Last seen: July 14, 2023

Appears In

Source Context

Recovered passages from the original issue text. When the raw archive preserved outbound links inside the source passage, they are listed directly under the quote.

Trying Again On Fideism
February 15, 2023 · Original source
Eliezer Yudkowsky’s position is Let Them Debate College Students. I’m not a college student, but I’m not Anthony Fauci either, and I am known for blogging about extremely dignified ideas like the possibility that the terrible Harry Potter fanfiction My Immortal is secretly an alchemical allegory. I haven’t seen ivermectin advocates using “Scott takes this seriously enough to argue against it!” as an argument, and I have seen them getting angry about it and writing long responses trying to prove me wrong. Sometimes they have used me getting some points wrong as a positive argument, and I would be open to the argument that I failed in not arguing against it well enough that they couldn’t do that, but nobody has been making that argument, and if they did, then it would imply that people who are smarter than me should take over the job, which I endorse. III. I worry Scott Aaronson thinks I’m saying you shouldn’t trust the experts, and instead you should always think for yourself. I’m definitely not trying to say that. I’ve tried to be pretty clear that I think experts are right remarkably often, by some standards basically 100% of the time - I realize how crazy that sounds, and “by some standards” is doing a lot of the work there, but see Learning To Love Scientific Consensus for more. Bounded Distrust also helps explain what I mean here. I also try to be pretty clear that reasoning is extremely hard, it’s very easy to get everything wrong, and if you try to do it then a default option is to get everything wrong and humiliate yourself. I describe that happening to me here, and presumably it also happens to other people sometimes. What I do think is that “trust the experts” is an extremely exploitable heuristic, which leads everyone to put up a veneer of “being the experts” and demand that you trust them. I come back to this example again and again, but only because it’s so blatant: the New York Times ran an article saying that only 36% of economists supported school vouchers, with a strong implication that the profession was majority against. If you checked their sources, you would find that actually, it was 36% in favor, 19% against, 46% unsure or not responding. If you are too quick to seek epistemic closure because “you have to trust the experts”, you will be easy prey to people misrepresenting what they are saying. I come back to this example less often, because it could get me in trouble, but when people do formal anonymous surveys of IQ scientists, they find that most of them believe different races have different IQs and that a substantial portion of the difference is genetic. I don’t think most New York Times readers would identify this as the scientific consensus. So either the surveys - which are pretty official and published in peer-reviewed journals - have managed to compellingly misrepresent expert consensus, or the impressions people get from the media have, or “expert consensus” is extremely variable and complicated and can’t be reflected by a single number or position. And I genuinely think this is part of why ivermectin conspiracies took off in the first place. We say “trust science” and “trust experts”. But there were lots of studies that showed ivermectin worked - aren’t those science? And Pierre Kory MD, an specialist in severe respiratory illnesses who wrote a well-regarded textbook, supports it - isn’t he an expert? Isn’t it plausible that the science and the experts are right, and the media and the government and Big Pharma are wrong? This is part of what happens when people reify the mantras instead of using them as pointers to more complicated concepts like “reasoning is hard” and “here are the 28,491 rules you need to keep in mind when reading a scientific study.” IV. All of this still feels rambly and like it’s failing to connect. Instead, let me try describing exactly what I would advice I would give young people opening an Internet connection for the first time: You are not immune to conspiracy theories. You have probably developed a false sense of security by encountering many dumb conspiracy theories and feeling no temptation to believe them. These theories were designed to trap people very different from you; others will be aimed in your direction. The more certain you are of your own infallibility, the less aware you will be, and the worse your chances. The ones that get you won’t look like conspiracy theories to you (though they might to other people). When you run into conspiracy theories you don’t believe, feel free to ignore them. If you decide to engage, don’t mock them or feel superior. Think “there, but for the grace of God, go I.” Get a sense of what the arguments for the conspiracy theory look like - not from skeptics trying to mock them, but from the horse’s mouth - so you have a sense of what false arguments look like. Ask yourself what habits of mind it would have taken the people affected by the theory to successfully resist it. Ask yourself if you have those habits of mind. Yes? ARE YOU SURE? To a first approximation, trust experts over your own judgment. If people are trying to confuse you about who the experts are, then to a second approximation trust prestigious people and big institutions, including professors at top colleges, journalists at major newspapers, professional groups with names like the American ______ Association, and the government. You might ask: Don’t governments and other big institutions have biases? Won’t they sometimes be wrong or deceptive? And even if you’ve lucked into the one country and historical era where the government 100% tells the truth and the intellectuals have no biases, doesn’t someone need to keep the flame of suspicion alive so that it’s available to people in other, less fortunate countries and eras? The answer is: absolutely, yes, but also this is how conspiracy theories get you. They will claim that they are the special case where you need to take up the mantle of Galileo and Frederick Douglass and Jane Jacobs and all those people who stood up to the intellectual authorities and power structures of their own time. The whole point of “you are not immune to conspiracy theories” is that the evidence for them can sound convincing because something like it is sort of true. This is equally so for second-level claims like “prestigious institutions are fallible and biased”. Probably something like “make a principled precommitment never to disagree with prestigious institutions until you are at least 30 and have a graduate degree in at least one subject” would be good advice, but nobody would take that advice, and taking it too seriously might crush some kind of important human spirit, so I won’t assert this. But always have in the back of your mind that you live in a world where it’s sort of good advice. If you feel tempted to believe something that has red flags for being a conspiracy theory, at least keep track of the Inside vs. Outside View. Say “on the Inside View, this feels like the evidence is overwhelming; on the Outside View, it sounds like a classic conspiracy theory”. You don’t necessarily have to resolve this discomfort right away. You can walk around with an annoying knot in your beliefs, even if it’s not fun. Look for the strongest evidence against the idea. Keep in mind important possibilities like: Is it possible that everyone who disagrees with the idea is a bad mean cruel stupid person, but also, the idea really is false?
Inline links: Let Them Debate College Students, like the possibility that the terrible Harry Potter fanfiction My Immortal is secretly an alchemical allegory, Learning To Love Scientific Consensus, Bounded Distrust, happening to me here, ran an article, ARE YOU SURE?
Links For April 2023
April 20, 2023 · Original source
29: You’ve spent the past ten years hearing arguments about how the Catholic Church wasn’t anti-science and Galileo had it coming. But a recent paper puts a new spin on the story, arguing that the Church only started being anti-science after the Counter-Reformation. "Across Europe, Catholic and Protestant cities had shared comparable numbers of scientists per capita prior to the Counter-Reformation, but Catholic cities experienced a cataclysmic relative decline precisely when the Counter-Reformation was implemented . . . the shock persisted in the long term . . . overall, the Counter-Reformation appears to be one of the largest shocks to science in human history." Twitter summary here. Bias warning (not sure if joking or real): be sure to note the lead author’s institutional affiliation.
Inline links: a recent paper puts a new spin on the story, here, the lead author’s institutional affiliation
Your Book Review: The Educated Mind
July 14, 2023 · Original source
Egan’s insight is that these obsessions give teenagers a sense of meaning, and that we can use them as tools to make middle schools that overflow with meaning. From meaningless to meaning-soaked Again, Egan sketches out a new kind of curriculum subject-by-subject. Before, his trick was to ask where the subject first evolved out of; now, it’s to ask who first discovered or created the specific content we’re teaching. “All knowledge”, he writes, “is human knowledge. Everything we know is knowable through the lives of its inventors, discoverers, or users, and we can have access to that knowledge through the hopes, fears, or intentions that drove them”. Middle school math Who first discovered the concepts students learn in math? The answer, of course, is a wide diversity of curious men and women living across the world over the last few thousand years. Egan says: bring those people into how we teach math. If we used gossip and heroes to help students find it meaningful, what kind of math would result? When we teach the Pythagorean theorem, we should give a sense of who Pythagoras was — a cult-founder who worshiped numbers to find God, whose followers (according to a piece of ancient gossip) murdered one of their members who discovered irrational numbers! Q: Well, sure, that works for Pythagoras, but he’s a known nut job; surely most math doesn’t come from such interesting roots? When we teach the Cartesian coordinate system, students should meet Rene Descartes, the Calvinist French polymath who saw the possibility that math could decipher the world, if only we could unite algebra and geometry… and invented the xy-plane to do exactly that. When we teach scientific notation, we should call our students’ attention to the importance of the number zero, and tell them the story of the Pope who tried to introduce Arabic numerals to Christian Europe and may have been assassinated because of it. When we teach algebra, we should ask students why “algebra” is Arabic for “the fixing of bones”, and tell the story of what Muhammad ibn Musa al-Khwarizmi was up to. We could do this all day. Literally everything students learn in school was first invented or discovered by some interesting person who was struggling to accomplish something hard. To learn is to connect with those people, whether we know it or not. Egan says: help kids know it. Math has been dehumanized: re-humanize it. Q: So the math curriculum needs to become a history of math curriculum, and math teachers need to become history teachers? No, the content needn’t change. But with surprisingly little work, we can bring in the gossipy stories of heroes, and their obsessions can spread to students. Middle school science Who first discovered the things students learn about in science? If you’re thinking “scientists”, you’re only partially right. Most of the big-picture ideas that we now think of as “science” were discovered before the word “scientist” was invented, or the discipline was professionalized. Frequently, they were hatched by true amateurs, working in their free time, hungry to unlock the secrets of nature. We can use gossip and heroes to spread their obsessions to students just as we taught math, but Egan points out two twists. The first is that the content itself can take on heroic qualities: everything is impressive, when you look at it in a certain light. In an interview, Egan once said: “My book is an attempt to show that, indeed, everything in the world is wonderful, but that schools are designed almost to disguise this slightly shameful fact. We represent the world to children as mostly known and rather dull. The opposite is the case: we are surrounded by mystery, and what we know is fascinating”. What would even the most boring subjects look like, if we emphasized their heroic qualities? Well: What’s a tooth? Bone, wrapped in rock, surrounding tiny cells that your body feeds with blood. What’s a bar of chocolate? A crystal of jellyfish-shaped fat molecules stacked together; when you put it in your mouth you shake them apart into a writhing confusion. What’s the air around you? The bottom of a 10-mile-deep ocean; when you put your tongue over a soda straw and your Pepsi stops leaking out, it’s not because a “vacuum” is “sucking” it up, but because that ocean is squeezing it into your face. Again, we could do this all day! And in middle school science, we can. Everything in the world is wonderful; we can help students see this again and again. The second twist is that science is a subject rich in extremes. Here Egan introduces a concept that we’ll see crop up again: “15-minute segments”. To help us fit as much wonder as possible into a school day, he suggests we supplement the usual school subjects with a few quick lessons. To infuse science with extremes, he suggests we add on three: “human & natural records”, “extremes of animals & plants”, and “cosmology”. Middle school history Who first made the things students learn about in history? Why, the historical characters themselves! Since we’ve given kids a grounding in history in elementary school, now we can build on that, going through many of the same events as before, but in more depth, and more vividly. We’ll leverage the interest with other people’s inner lives to tell stories focusing on the perspectives of the people who made history — zooming in, when possible, on scandalous details. We’ll leverage the tool of idealism to choose historical characters who chafed against their surroundings, and understand what they were trying to accomplish. What was their vision of the world? What did they hope for, and what did they fear? Q: Isn’t the “great man” approach to history out of fashion? Egan’s approach doesn’t say that “great men” made history — it’s just leveraging gossip to help kids see history as something meaningful that can expand their own possibilities. “Early adolescence is commonly a time of intense and vivid emotional life, and also a time of deepest boredom and depression… [We] can give shape to the intermediate curriculum and offer the students a world that is rich, complex, varied, and as intense and vivid as their own emotional lives”. We also should add on another “15-minute segment” just to pump in as many biographies as possible, and from people who don’t always fit into the normal history curriculum. Call it “Brief Lives”, and throw in anyone who’s struggled to push some limit — Mary Wollstonecraft, Jesse Owen, Dietrich Bonhoeffer, one of the students’ great-aunts, whoever. As students get older, this can transition to “People and Their Ideas”. Here, we’d focus less on the details of the person’s life, and use it as a backdrop to showing how meaningful some of history’s most important ideas could be. Think Aristotle and syllogisms, Edward Said and orientalism, Confucius and propriety, Cornel West and race, Buddha on the four noble truths, Muhammad and the five pillars, Karl Marx and communism, Adam Smith and the invisible hand, Thomas Hobbes and the state of nature, John Locke and natural rights, Jeremy Bentham and utilitarianism, Thomas Aquinas on the sacraments, Martin Luther on faith, Voltaire on the freedom of speech… you get the idea. Q: Can you really get a profound understanding of utilitarianism in 15 minutes? Yes! The point of this segment isn’t to develop a systematic understanding of any one idea, it’s to introduce students to the exciting possibilities of human thought. (As a bonus, this might make them less likely to fall for the first ideology that they encounter later in life.) Diversity is important for this — as it is with culture. Throughout this, we should also be trying to expose students to as much cultural diversity as possible, because in high school, we’ll be trying to make sense of our society, and it’s impossible to do that unless we have something to compare it against. Middle school literature & language You might think that this subject would be easy — that middle school literature is already filled with “strong and clear narratives”, that it deals with “transcendent human qualities such as courage, love, and persistence”, that it focuses on “extremes of human experience”, that it examines “something strange and exotic”. You’d be right! Egan’s pretty happy with a bog-standard middle school literature curriculum, done well. In this part of the book, his spends most of his limited space suggesting three rather odd activities which could also be useful — especially for increasing students’ awareness of language, so they can use it better. The first is etymology — not, however, memorizing lists of roots, but in being told the entertaining backstories of specific words. Take the word “berserk”, for example — we now use it to mean something relatively mild (“if my mom catches me coming home late, she’ll go berserk”), but it comes from an old Norse word meaning “a raging warrior of superhuman strength”. And that’s because ber meant “bear” and serk meant “shirt”: soldiers of the bear cult would don the skin of a bear to, in their minds, transform into one — howling, foaming at the mouth, and gnawing the rims of their shields. (Most adults walk through life with little understanding that the words falling out of their mouths are entities, with their own back-stories. Communication is, at the very least, more interesting when we become aware of this.) The second is to add on another language to learn — not, this time, to become fluent in it, but just to become aware of how very different human languages can be. (For native English speakers, Sanskrit might work well, or Cantonese, or perhaps even ancient Egyptian. Again, the point isn’t for this language to be useful — it’s to explore diversity.) The final one is to study humor — not just jokes anymore, but comedy at its finest. Egan cites (at length!) Monty Python as a group of people who were particularly brilliant in their use of the English language. Examining their skits can lead us into not just an appreciation of semantics (the study of how meaning is made from smaller pieces, like etymology) but also pragmatics (the study of how meaning is made in social situations). Pretty heady stuff, for a conversation about a dead parrot. Part 4: A new kind of high school I’ll confess — I loved parts of high school… and among nerdy folks, I suspect I’m not alone. For some of us, this was a golden time. Even at my local public high school, I had access to academically thrilling classes — especially, in my last two years, advanced literature and history. I felt like I was finally understanding the ideas that mattered. In any case, Egan is quick to acknowledge that, at this level, the sort of education he advocates really is being practiced in some places. What he can add is an understanding of what makes it wonderful, how to make it even more wonderful, and how to make it wonderful for many, many more people. What’s the matter with high school? Far too often, even when high school classes are intellectual, they’re dry. For the majority of students, all this academic stuff is experienced as utterly lifeless, a mass of dead information to be squeezed inside one’s head for a test and then left to evaporate. Egan mocks the curriculum wars that seem to be a permanent feature of the teaching life; quoting the sociologist Pierre Bourdieu, he says “while the academic left and right bicker over whether the curriculum is too traditional or too radical, they fail to recognize that most students absorb so little of academic culture that the bickering is largely irrelevant”. Why so dry? Egan suggests three reasons to explain this. First, because high school academic classes are too often masses of small details with no sign of the big picture. Second, because they’re typically slavishly disciplinary, and aren’t able to address the questions that span the disciplines. Third, because they’re often designed to bring students through what everyone is sure of, and hide away any controversies. In all of these, Egan suggests that what’s called “academics” in high school is too often a dim imitation of what real academics are actually practicing. There’s a fourth reason, though, and it’s probably the biggest of all — by the time they get to high school, most students haven’t actually learned that much! An academic approach is designed to connect small details into the big picture; for people who arrive in high school (and college) classes without having already collected much in their heads, academics are going to taste dry. (An implication of this for anyone trying to improve schools is that we might not want to start with high schools. If your goal is to create a new kind of academic learning, first start at elementary school — or barring that, middle school.) What motivates mad scientists? When we wanted to re-conceive the elementary and middle school curriculums, we looked at what students were already good at — kids’ cognitive strengths and adolescents’ obsessions. For this level it might be easier to look — for reasons that will become clear when we finally unveil Egan’s crazy-sounding definition of education — at the sorts of things that bring intellectuals joy. Q: Which intellectuals? Take your pick. Galileo, Einstein, Smith, Marx, Goodall, Chomsky, Curie… all the people who took to the life of the mind like fish to water. But that’s a lot to hold in my mind at once, so I’m just going to think about Doc Brown from Back to the Future: He was high on intellectualism I’ve never been there, but the brochure looks nice Let’s call these people “mad scientists”. And let’s pretend we once again took up our job of being primatologists, and snooped on these folks “in the wild” (“in the lab”? this is beginning to get recursive…)… what would we find motivating them? Asking simple questions, for one. (What is space? What is society? What is a human? What is language?) Building general schemes (big theories) that hold lots of evidence together. Finding their place in the cosmos. And (perhaps above all) seeking certainty. Once again, Egan suggests we use these as tools to remake the curriculum. From dry to daring What could a high school curriculum look like, if it were rebuilt on these tools? Once again, Egan has a trick. This time, it’s to ask what fights have driven the development of each of these fields forward — and how we can help students enter them. First, a mini-segment! Intellectuals invented the academic disciplines to better pursue the life of the mind, but the disciplines can get in the way. Some of the most important intellectual discoveries that could help students are too big to fit into any of the disciplines. We need a place to introduce them plainly. Egan proposes another mini-segment — again, just 15 minutes a day, a few times a week — called “Metaknowledge”. Q: Isn’t that already in the International Baccalaureate program? Yes, he acknowledges that he’s borrowing from that! This segment would introduce ideas that would enrich student thinking across the disciplines: game theory, cognitive biases, systems thinking, Bayesian reasoning, epistemology, ethics, logic, cultural evolution, and so on. High school literature How can we help students enter the big fights of literature? Intellectuals of a literary bent — professors, critics, poets, novelists — delight in arguing over literature like rabbis arguing over the Talmud. Take, just for one example, the debates over Shakespeare’s character of Ophelia. Does she love Hamlet, or is she a victim of his emotional abuse? Is she truly insane, or is she acting? Is she passive, or is she pulling the strings? Oceans of ink have been spilled arguing over questions like these; our students can, perhaps, spill a few ounces more. The usefulness of arguing literature, for Egan, isn’t that it’s oh-so important for educated adults to know a lot about Ophelia. (This, again, was where the academicists went wrong — in thinking that being educated was about getting the best knowledge in your head.) Rather, arguing over literature is a training arena for the all-important intellectual move of this kind of understanding: building general schemes out of evidence, and struggling with anomalies. One person, for example, might hold that Ophelia is insane, and cite all sorts of obvious evidence — her father just was murdered by her lover, she rants nonsense while (bizarrely) handing out flowers to friends… But then he’s challenged when he reads a scholar pointing out that, to people in Elizabethan England, types of flowers have symbolic meanings. How does he deal with that? He could ignore it, claiming it an over-reading of Shakespeare. (Sometimes a flower is just a flower!) Or he could address it, complicating his own scheme. This intellectual work is best done with other people, who are incentivized to challenge your understanding of something, and go back and forth, building competing models and calling attention to anomalies. This process — the “dialectic” — pops up again and again in the academic disciplines. It’s the center of how understanding works, at this stage. And the nice thing about practicing it on literature is that, more so than in history or science, the evidence is shared knowledge — it’s right in front of everyone, written out. But there are other ways literature class can be helpful to the general life of the mind. Egan also suggests that we’ll want to specially include literature that helps students understand complex ideas. Camus, Orwell, Borges, Calvino might be particularly helpful here… and I imagine that genres like science fiction and magical realism might be particularly useful, too. (Note, though, that once again none of this requires a radical remaking of the curriculum, or of the canon of texts that we traditionally assign to high schoolers.) Q: Oh yes, the canon — what does Egan have to say about the canon wars? When he wrote Educated Mind in the nineties, the long-brewing canon war was approaching its inevitable apocalyptic climax. On one side of this Plain of Megiddo were the pro-canon traditionalists, arguing that we should keep assigning the texts that had been argued over for centuries. Facing them were the anti-canon reformers, arguing the standard texts over-represented the perspective of dead white men. Onto the middle of the plain rides Egan on a white horse, who bellows above the din: “I’VE GOT A BUSLOAD OF HIGH SCHOOLERS WHO WANTS TO JOIN IN, EVERYONE OKAY WITH THAT?” To do so, he says, we need to give students the arguments from both sides. So, for example, bell hooks, Edward Said, and China Achebe should be on the syllabus, as should Allan Bloom, Mortimer Adler, and Diane Ravitch. And of course they should actually read the texts cherished by both sides, too, so they can argue better. High school history How could entering the big fights help us reinvent high school history? First, we might look for dueling histories. It’s time for students to get into historiography and understand that history isn’t just what happened, it’s something we make. We might help kids read chapters from Howard Zinn’s socialist history of America alongside the corresponding chapters from Paul Johnson’s conservative history of America. How could big questions help? We want to help students see how various people have disagreed over some of the big questions of what human history is, at its most basic. We can have them compare Steven Pinker’s theory of civilization’s progress (Better Angels of our Nature) with Yuvah Noah Harari’s theory of civilization’s woes (Sapiens). We could have them compare so-and-so’s account of human history as an ever-expanding unlatching of energy sources with Robert Wright’s account of human history as unlatching more and more positive-sum games (Nonzero). What role could the lure of certainty play? To help them grow their skills at finding anomalies, we might help them work through pseudo-histories and conspiracy theories. Q: Conspiracy theories! Oh, come now, you’re playing with fire. Well, the world is on fire. Our students will spend the rest of their lives encountering terrible-but-beguiling arguments about how the world works; if we don’t prepare them for those, what have we been doing? So we should introduce arguments that the Moon landing was a hoax, that the Illuminati founded America, that aliens built the pyramids, and so on. At no point can we demean students for falling for any of these theories — the job of a teacher at this stage, Egan writes, is to support students in their reasoning even when their beliefs are offensive and stupid, gradually offering anomalies. There’s no way out of bad theories except through them. By the time students graduate, we want them to have wrestled with terrible ideas and — for a while — lost. They need to experience what it’s like to change their minds about something they felt strongly about. They need to viscerally realize, in Feynman’s famous phrase, “The first principle is that you must not fool yourself and you are the easiest person to fool.” High school natural science How could entering the big fights reinvent high school science? At present, so much of the high school science curriculum — especially “honors” classes — is oriented toward helping amass details. (The same is true of 100-level university classes, which famously “survey” the field to prepare for more advanced studies. I always thought this was stupid — of the huge lecture hall of students in my Geology 100 class, how many went on to take even a second course?) The meaty debates that propel science forward are held back. Egan complains: “The more general and speculative theories in any discipline are treated like an unconventional and disreputable relation who, even though the children find her exciting and entertaining, must be kept hidden from view, her very existence denied as long as possible”. This is a stupid approach — students with an adventurous bent are convinced that science isn’t for them. Egan proposes, simply, that we flip this, and organize high school science classes around the big debates. We shouldn’t be ashamed at how, well, adolescent this might look: “the dramatic, speculative, and contentious theories will be up-front in the early years of the [high school] curriculum”. What might those be? Egan doesn’t give a list, but we can spitball some: instead of explaining what “matter” is from the top down, a physics class could problematize “matter” by following the debates over the nature of dark matter and dark energy, and by becoming familiarized with the various interpretations of quantum mechanics
Inline links: https://substackcdn.com/image/fetch/$s_!WPeH!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fsubstack-post-media.s3.amazonaws.com%2Fpublic%2Fimages%2F62ea55f8-0458-484f-be45-7a011d050756_1600x625.png, https://substackcdn.com/image/fetch/$s_!FPXt!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fsubstack-post-media.s3.amazonaws.com%2Fpublic%2Fimages%2Fb017fc37-3151-4556-87f1-31a097cf7594_1600x574.png