Astral Codex Ten

Star Wars

104 min read

Star Wars

Article

Star Wars is a recurring film in the Astral Codex Ten archive, appearing 12 times across 12 issues between September 29, 2022 and September 11, 2025. The archive places it in contexts such as “only exists in Star Wars films”; “after they watched Star Wars ten times in a row”; ""make a Star Wars / Star Trek crossover movie"". It most often appears alongside Scott, Trump, Twitter.

Metadata

  • Category: Films
  • Mention count: 12
  • Issue count: 12
  • First seen: September 29, 2022
  • Last seen: September 11, 2025

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.

Universe-Hopping Through Substack
September 29, 2022 · Original source
The space battlefield is no longer science fiction or something that only exists in Star Wars films. That’s why the Trump administration created the Space Force as an independent branch of the military in 2019. As Russia and China begin to weaponize space, the U.S. needs to invest in ways to deter this advancement.
Contra Resident Contrarian On Unfalsifiable Internal States
November 11, 2022 · Original source
Beyond that, the stories are all slightly different, but smoothing them into a single thread: the person got really into some piece of fiction, and found that one of the characters they were modeling really carefully was now “active” in some sense where could give them advice. For example, the person might be kind of a pushover, and then one time after they watched Star Wars ten times in a row, someone bossed them around particularly badly, and they imagined Darth Vader telling them to give into their anger and fight back (this is a fake example, there isn’t someone with a Darth Vader personality running around). Then this became a sufficiently regular occurrence that they could query their “Darth Vader” module and get good advice on social situations that their normal personality wouldn’t give them. Or maybe they would have a Darth Vader monologue running at the same time as their regular monologue, giving different advice. Eventually their inner Darth Vader absorbed various aspects repressed from their regular personality and became a different person from movie-Vader, more fleshed-out and focused on their particular concerns. They emphasize that it really feels like Vader is in their head giving them advice, or that they sometimes “become” Vader - and in particular they emphasize that this is different from just asking themselves “what would Darth Vader do in this situation?”. They understand that most people learning about their situation would expect that they’re exaggerating a much more boring “just ask yourself what Vader would do” situation, and they’re fine with people believing that if they want, but insist that it’s actually something different and more interesting than that.
Grading My 2018 Predictions For 2023
February 20, 2023 · Original source
Some product like “AI plus an internal scratchpad” or “AI with stable memory” fulfills the promise of that model, and is useful enough that it gets released for some application: 50% CONQUEST OF DIGITAL MEDIA: Can we make an AI that will create a full-length major motion picture to your specifications? IE you give it $2, say "make a Star Wars / Star Trek crossover movie, 120 minutes" and (aside from copyright concerns) it can do that? What about "code me a Assassins-Creed-quality first person shooter game, with muskets, set in the Revolutionary War?" I don’t think we’ll get quite that far in five years, but I think maybe "short cartoony YouTube clip" or "buggy app-style game" could be possible. AI can make a movie to your specifications: 40% short cartoon clip that kind of resembles what you want, 2% equal in quality to existing big-budget movies.
Highlights From The Comments On Nerds And Hipsters
April 27, 2023 · Original source
…where Sam fills in the northwest and southeast squares, then claims a correlation, draws a line, and points to high-status/deep-engagement as a single unified concept. But the southwest square could be “writes a wacky Shakespeare fanfiction, Romeo & Juliet II, in blank verse and period-appropriate language”, and the northeast square could be “publishes a dissertation on some irrelevant aspect of word frequency changes across English plays to prove something about linguistics”. And then having conflated these two things, he goes on to conflate a third thing, Shakespeare vs. Marvel. I’m not up to date on what goes on in academic literature departments, but Freddie de Boer says they’re increasingly offering “Spiderman Studies” classes in attempts to stay culturally relevant; probably Spiderman professors engage with Spiderman on the same deep level that Shakespeare professors engage with Shakespeare. If we made this a cube - high-status vs. low-status forms of engagement along one axis, Shakespeare vs. Spiderman along another axis, and deep vs. shallow engagement along the third - would anything be left of the “nerd” cluster as Sam describes it? I’m not sure. 2. Comments With Strong Opinions On The Definition Of Nerds, Geeks, Etc There were many of these. One common theme was that in the 70s, “nerd” was almost synonymous with “person who is only into unpopular things”, for example sci-fi, comics, and RPGs, all of which were unpopular in the 70s. Then those things became very popular, but the people who were interested in them still get called “nerds”. So now people like Kriss use “nerd” almost synonymously with “person who is only into popular things”. So we have a word which denotes either interest in unpopular things or interest in popular things, depending on who’s using it and when they last updated their lexicon. In the 70s, it was more reasonable to group “interested in math and computers” and “interested in sci-fi and RPGs” together, because both were unpopular and tended to involve the same group of socially maladept young men. Now math is still hard and unpopular; computers are hard in the sense that it’s tough to learn programming languages, but universally used and beloved; sci-fi and RPGs are very popular, and the typical sci-fi fan is closer to a socially-adept albeit “quirky” young woman. If words are hidden inferences, the inference represented by “nerd” - that sci-fi fandom, interest in math, interest in computers, maleness, poor social skills, and nonconformity with mainstream interests all go together - is now thoroughly false, dooming us to conversations like this one. Attempts to repurpose the several different words used to refer to the math/sci-fi/awkward/unpopular cluster to represent different aspects of its successor clusters have mostly failed. Sample comments from this section: Coagulopath writes: To me, being a nerd requires a degree of swimming against the cultural tide. It's weird and unpopular to be into trains, so the fact that you are indicates you have a bit of character (or are socially oblivious, which is also kind of endearing). The problem (and I think Kriss alludes to this) is that nerd stuff went mainstream in the past few decades. Of the 10 highest-grossing movies of the 2010s, 6 are Star Wars or Marvel films. There's no longer any sense that nerds are the underdog. But what does it say about you when you wear a Star Wars shirt? You're pledging allegiance to the biggest, most popular club imaginable. Is that a brave stance? Those people always make me think "if you lived in the SW universe, you'd be on the side of the Empire". In general, I am creeped out by effusive public adoration for things that are near-universally loved. Like The Beatles. Or bacon. Or dogs. Or science (Neil DeGrasse Tyson's whole shtick). Regardless of how I feel about those things on the object level, there's no glory in joining a culture war when you're signing on to the winning side. Tolaughoftenandmuch writes: All this is so different from when I was a kid. I was a nerd because I was intellectually curious, bad at and disinterested in sports, socially awkward, and had a computer hobby (owning hardware C64 ->8088 ->286, writing programs in Basic, being a BBS SysOp). Cultural interests were irrelevant to my nerd status. In terms of exactly when nerd interests started becoming popular, Ghatanathoah writes: I also wouldn't say that nerd stuff only went mainstream in the last decade, it's not like the first 3 Star Wars movies were obscure arthouse pictures. I think the reason Marvel took off is just innovations in storytelling: movie producers finally figured out a way to adapt the gloriously arcane and convoluted lore of superhero comics in a way that could appeal to mainstream audiences in addition to nerds (much how George Lucas figured out how to get mainstream audiences to love the space operas nerds had been enjoying for decades before 1977). And Melvin writes: Comic book movies had always been pretty popular. Superman was the top grossing movie of 1979 despite coming out in 1978. Superman 2 was the second top grossing movie of 1981. Batman was the second top grossing movie of 1989. Batman Returns was the top grossing movie of 1992. Batman Forever was the top grossing movie of 1995. Spider-man was the third top grossing movie of 2002 (behind Lord of the Rings and Harry Potter movies). That's about all I can be bothered looking up right now but you get the idea, superhero movies have been popular since the 1970s. Kaitian writes: I think being a nerd requires being a bit socially clumsy about your interest, and talking or signalling about it in situations where most people don't expect it. So being a nerd about completely mainstream stuff like pop music or football is not possible, that's just fandom. Being a nerd about very well known and relatively well-respected stuff like classical music or birdwatching is rare, because most people who are classy enough to care about the thing in the first place are also classy enough to know when to shut up about it. But comics? Star trek? Power metal? They have fairly low barriers to entry *and* most people don't care about them, so there's plenty of opportunities to bring it up to people who don't want to hear about it. So that's why I think nerdery usually attaches itself to the typical targets. J.R. Leonard has as good a terminology proposal as anyone: I think what's missing is that Kriss uses "nerds" as his foil, but what he's talking about would better be described as fan culture. Deiseach teaches us the etymology of “geek”. The very distant etymology is from German gek, a relative of “cackle” → geck, a fool/madman (who was presumably cackling all the time). But this comes down to us through the early American institution of the geek show. From Wikipedia (cw: disturbing): Geek shows were an act in traveling carnivals and circuses of early America and were often part of a larger sideshow. The billed performer's act consisted of a single geek, who stood in the center ring to chase live chickens. It ended with the performer biting the chickens' heads off and swallowing them. The geek shows were often used as openers for what are commonly known as freak shows. It was a matter of pride among circus and carnival professionals not to have traveled with a troupe that included geeks. Geeks were often alcoholics or drug addicts, and paid with liquor – especially during Prohibition – or with narcotics. More obvious but I went surprisingly long without realizing it: “fan” (as in “sports fan”) is just short for fanatic. 3. Comments About Collecting The veteran collectors in the comments said that my theory (the Internet makes collecting too easy) was only a small part of the decline. The bigger part is that most coin collecting begins with the wonder of finding a rare coin in your change, and most stamp collecting begins with the wonder of finding a rare stamp on your mail, and the rise of credit cards and emails means people aren’t handling coins and stamps as much in their daily lives. Tom Metcalf writes: I'd guess many coin collectors got their start being patient enough to sort through change to see if they had e.g. a wheat cent or silver dime, but first of all, who pays with cash and gets change, and the chances of finding something collectible are orders of magnitude smaller than, say, the '90s. And stamp collectors would have started saving the stamps on mail sent to their house, but how frequently do you get stamped mail anymore? My 79-year old father goes to stamp shows, because one of his hobbies is to buy sheets of old but common unused stamps for less than face value. They are still valid postage, and then he uses them to personalize the stamps he puts on letters he sends to various people. And most of the other people at stamp shows are about his age. He does have some stamps he thinks are interesting that he's held onto, but the dealers at the stamp shows think they're common and uninteresting. So there's a decreasing number of stamps that might be "worth something" and a net loss of collectors in the hobby, and then every time a collector dies and his heirs have no interest in his collection and that many more stamps make their way to dealers who now have one less buyer. Too bad "sending paper letters with vintage but still valid stamps" never caught on with the hipsters. Art writes: The widespread adoption of email created a world where a letter is almost certainly junk mail or a bill. Nobody looks forward to hearing from a good friend from across the country now when picking up the day’s mail. If letters are not interesting why would stamps? The same for coins. Nobody uses cash, and getting a pile of coins with no significant value (inflation) is just an annoyance. These objects have passed into irrelevance. Still, it seems like some little pieces of joy and wonder have passed from our lives. Nathan Savir writes: I collect coins and I think the description of the hobby (and its putative death) isn't quite right. 1. Rare coins are in fact hard to find, even in today's internet world. They are usually sold in auctions, which might happen online, but still not that frequently. It's not unusual for examples some specific rare coin to be sold only once every few years. If the coin is also obscure, it may not be prohibitively expensive, so this kind of situation isn't the sole province of rich people. 2. One area of collecting is to get all the rare items. Another is to get all the minor varieties of a common item. These varieties may not be very rare, but it still takes a lot of effort to be able to distinguish them and to find them. Some collectors will obtain large numbers of relatively common coins and sort through and scrutinize them to try to identify interesting varieties. 3. An important part of collecting is getting good deals. This is surely a lot harder than it used to be because sellers can more easily figure out what things are worth and you won't find something grossly underpriced in a random antique store as often these days. But filtering through buckets (or online listings) of large numbers of coins can still be fun and lead to spotting good deals. So I think there is room in the hobby for nerd-like behavior (per your definition). I would argue the decline of the hobby is more due to competition from other similar hobbies (a generation ago you could collect stamps, coins, baseball cards, or rare books/comics - now you can collect beanie babies, Pokemon cards, NFTs, funko pops, action figures, etc.). I think stamps have suffered more than coins because stamp collecting has more of an aesthetic component (which has faced stronger competition) while coins have a historical element that is less well replicated by collecting newer things. This difference isn't obvious in the google trends graphs you posted but I believe is observable from looking at prices of stamps vs coins. I asked Nathan what coins he collects that are still tough to find, and he gave the example of this Yuan dynasty coin from 1350. I guess if you want to be a collector in 2023 you need to go hard. Arrk Mindmaster writes: I used to collect US coins from every denomination, year, mint, and variety (such as large and small date 1960 pennies). It was kind of like a treasure hunt, knowing you could find something in circulation that was actually more valuable than most people thought it was. I lost interest in the late 1980s sometime, when I found the volume of new coins dwarfed older coins. For example, for Lincoln pennies, they used to make a few million per year, then a few tens of millions. In the 80s, they started making about 5 BILLION each, and it started drowning out all of the old coins, which basically stayed the same value. This comment snapped some things into place for me; I collected coins as a kid in the 90s, and older coin collectors would talk as if you could spot some pretty rare things in your pocket change. But I had much worse luck, and it’s been years since I’ve even found a wheat cent in circulation (even when I was a kid this would happen occasionally). Maybe coin collecting is dying not just because we don’t use change, but because our change is less likely to have interesting coins in it. Another victim of mass money printing! The new state quarters sort of fix this, but other commenters express contempt for this. It feels like the transition between old myths (which one can enjoy) to the Marvel Cinematic Universe (which corporations are begging you to enjoy in a pre-approved way) - now that the Mint wants you to collect their coins, it feels kind of slavish to comply. Other people point out that the collecting of things other than stamps and coins is still going strong. Drethelin: Collecting has not in the slightest died out. People collect more things than ever, like sneakers, funko pops, vintage cars, guns, antique ceramics, anime figurines, magic cards, etc. Some people also brought up NFTs - are there lots of people who truly enjoy collecting NFTs, aren’t just in it for the investment value, and have kept up through the crypto bear market? 4. Comments Insisting That Sports Are Good Aris C writes: It's a little glib to dismiss sports as bad, isn't it? Athletes display extreme skill, sometimes transcendent. I don't think watching people push the limits of human ability is obviously bad. When I said sports were bad, I didn’t mean this as a final value judgment. I meant that, by our usual standards of entertainment, sports are bad. Imagine a sitcom which had several thousand episodes, each with the exact same plot (some people try to get a ball from one side of the court to the other). At some point, surely most people would stop watching! I appreciate the something something human spirit, and I’m happy to know that, somewhere in the world, sports are happening. It’s just the decision to actually watch them that confuses me. 5. Comments About Enjoying Things Vs. Building Identities Around Them Many people complained that some combination of me and/or Sam Kriss were denying that anyone can ever enjoy anything except as an attempt to “gain status”. I would answer first that yes, I think most behavior has some status component (although it may be a small component, mixed with genuine enjoyment). But also, it doesn’t seem mysterious that some people eg like Star Wars, or even love Star Wars. What seems mysterious to me is when this expresses itself as desire to buy thousands of dollars of figurines in the original boxes, or memorize the stats of every class of ship in the Imperial Navy, or something else which doesn’t seem very fun on its own merits. I’m not criticizing others from a place of invulnerability here. When I was ~14, I got really into Star Wars, and aside from reading all the Extended Universe books - some of which were genuinely very good - for about a year I spent all of my allowance and a good fraction of my free time obtaining Star Wars collectable cards associated with an M:TG style card game (which I never got around to playing). My parents probably still have them somewhere. I cannot at all retrace what led me to do this, but I appreciate commenters’ less cynical explanations. For example, enchantingacacia writes: I think it's honestly sort of funny how non-nerds seem to genuinely not understand that a nerd's identity becomes about [thing] because they like it so much, not the other way around. Sometimes you encounter a thing—let's say it's Minecraft, because why not—and it's just such a positive experience for you that you take every possible opportunity to keep thinking about Minecraft, even when you're not playing. You collect every scrap of information you can find about Minecraft and you compose your own original Minecraft-related songs and you decorate your room with blocky little figurines. You get into a virtuous cycle where talking and thinking about Minecraft is so rewarding that you keep enjoying all these secondary activities long after you're bored of actually playing Minecraft itself. You look out for opportunities to meet people who'd enjoy talking about Minecraft with you and make a bunch of friends with whom you mostly talk about Minecraft, and your friends and family start seeing you as "the Minecraft guy" and they get you a Minecraft hoodie for Christmas cause they know it's a safe pick. This is the obvious and intuitive explanation! There's no need to get fake-deep about "ah, they got into Minecraft so they'd have something to construct their identity around": it explains nothing, and consistently makes incorrect predictions about the internal experiences of Minecraft nerds. It's only virtue is making people feel better about being annoyed by those weirdos who won't shut up about Minecraft. It's possibly that I have unusually low social motivation (genuinely, what does it mean to "construct your identity" and why is it something people would be this comically desperate to do?) and am typical-minding, but, uh, I wonder if there's any group closely associated with "nerds" who are also known for having low social motivation? I think it's a tad more likely that people like Kriss are typical-minding, and constructing elaborate social motivations for people who just like stuff regardless of what people like him think. This is a good comment which avoids buck-passing-style “I enjoy it because it’s fun” explanations. Along the same lines, odd anon writes: It is only among nerds that enthusiasm for something corresponds to learning more and more about it. That's the core element here. Non-nerds who like something do not feel any need to read up on it, to know more and more. Of course, the producers of content notice when their audience are nerds, and they start to produce content built more for those who obsessively learn every detail. Comics can start "rewarding" readers for noticing some obscure thing. A game series can have an elaborate continuity, or a zillion details to memorize. Content that either "leans into the fandom" or simply naturally has too much for non-nerds to easily pick up, can rapidly become nerd-only, thus solidifying boundaries. And sure, there are the personality correlations, attributes most nerds also have, including being STEM-y and lacking social skills. Combined, a nerd ended up being an unpopular thing to be. Ghatanathoah is less patient: Both Kriss' essay, and Scott's response to it, remind me of the "Evil Cannot Comprehend Good" trope from TV tropes, except replace "Evil" with "Very socially motivated people" and "Good" with "Less socially motivated people" (although honestly both sets have a lot of overlap). Both essays seem obsessed with finding some deep, social reason why hipsters and nerds behave the way they do, like the supervillain who is telling the hero that they are "Not So Different." They literally can't comprehend the idea that someone could actually like something, so they try desperately to find some way that liking things isn't something people actually do. People couldn't actually like Star Wars, sportsball, the MCU, or the Beatles, they must be liking them to achieve some social goal like forming an identity or seeking status! This is one of the two giant flawed assumptions that invalidates the theses of both articles (the other one, of course, is the assumption the the MCU is bad, when it is, in fact one of the human race's greatest artistic achievements*). If you assume that it is possible to like things for non-social reasons, or even in addition to social reasons, hipsters and nerds make much more sense. The reason that nerds like both popular stuff like the MCU, and less popular stuff like postage stamps is because they don't care about if something is popular, they care about if it fascinates them. Whether that thing is popular is orthogonal to how fascinating it is. That fascination makes them invest a lot of time and effort in it, which in turn makes it part of their identity. They weren't trying to find something to form and identity first and picking Star Wars, identity formation was just a side effect. Similarly, hipsters probably just get bored with things they see frequently and want to seek out new things to be interested in. Making obscure things part of their identity comes second, if at all. Also Ghatanathoah: Scott asks if its ever okay to build your identity around liking a thing. I would ask if it's ever okay not to? What's the alternative, building it around social status games or large nonselective identity groups? It seems to me that liking something isn't just a good thing to build your identity around, it's one of the best things to build it around. After all, unlike social status games, you can like something without forcing other people to not like it. This is a good question, well-phrased. I think the traditional answer is that you should build your identity around social relationships (I’m the son of X, husband of Y, friend of Z), career, and maybe a few hobbies. I agree with this as far as it goes, but it doesn’t work for a lot of practical tasks - I can’t get common ground with someone at a party or start a conversation by introducing myself as the son of X or husband of Y - most people just won’t know X or Y. Some people linked a Freddie de Boer post, Your Personality Has To Be Load-Bearing, which is generally good but I think has a similar problem. Obviously you should have a genuine and complex personality, but I worry a lot of people who talk about this will reject every specific aspect of personality because “it’s not, in itself, a full complex personality!”, but you can’t have a personality without building it out of specific aspects. A lot of people’s default personality, if they just do exactly what comes naturally and don’t put any effort into self-presentation or cultivation, is to browse Reddit and play video games. Most people realize this on some level and try to cultivate some personality beyond this, but I think that makes it extra unfair to say “Just use your natural true self!” The natural true self is exactly the boring thing we’re trying to get away from in favor of becoming a more interesting person. I’m trying to think if I have a personal answer to this. Part of my answer is the EA and rationalist communities. This has some downsides; I’m thinner-skinned about insults to these groups than I should be; some people might think I’m a fanatic. It also has some upsides; they embody real values I like, they try to make a difference in the world, they’re not consumer properties that make me feel like a corporation is pulling my strings. But my real answer is probably “I cheat by having a popular blog; this means you all know everything about me and I don’t have to fit my personality into a ten-second elevator pitch”. Maybe this is the traditional solution, from back when everyone knew everyone else in their community. It sure doesn’t feel adequate now, back when (non-bloggers) are constantly meeting strangers and having to communicate their identity to them quickly. My internal hierarchy of things it’s virtuous to build identity around, which is probably a weird class artifact and which I absolutely don’t consciously endorse, goes something like: Top-tier: Intellectual subfields, especially obscure ones or ones involving pure abstract math. If you can say “I’m really into trans-finite 8-dimensional Hoffdorf groups” and justify this with a discussion of how innately beautiful they are, you’ve got it made.
Inline links: words are hidden inferences, writes, Tolaughoftenandmuch, writes, writes, writes, J.R. Leonard has, teaches us the etymology of “geek”, From Wikipedia, writes, writes, writes, this Yuan dynasty coin from 1350, writes, other, commenters, Drethelin, writes, enchantingacacia writes, odd anon writes, is less patient, Your Personality Has To Be Load-Bearing
Links For May 2023
June 01, 2023 · Original source
2: All the ancients, from Darius the Great to Augustus Caesar, agreed that the Nisean horse was the most majestic horse breed, the horse of kings. The Chinese fought a war (the War of Heavenly Horses) just to get access to a breeding stock. Then they sort of ambiguously went extinct during the Middle Ages. But here’s a modern Iranian horse enthusiast talking about which breeds might be its descendants. 3: Remember when the global community banned whaling, but some countries (eg Japan) continued doing it under the facade of “research”? With octopus factory farms under increasing scrutiny, UNAM university in Mexico is operating a “farm disguised as a research center”. 4: Genuinely new (to me) optical illusion: what is this guy is doing with his hands? Here’s a slow motion version that shows how it’s done. And some people in the replies were speculating this only works because of his dark skin, but here’s a white person doing the exact same thing (wait for it). 5: Shingles vaccine probably reduces incidence of dementia, suggesting that VZV (virus behind shingles and chickenpox) is a contributor. Further discussion here that I’m still trying to make sense of. 6: This deserves to go down in history alongside the wittiest Socratic comebacks in the Platonic dialogues: 7: Matt Lakeman: Notes On Nigeria. Great introduction to modern Nigerian history. Read it for the visceral understanding of the “resource curse” and why poor countries stay poor, but also: A savant is basically someone who has innate mental challenges but is extremely competent in a particular narrow domain. Some savants become obsessed with trains and become great engineers. Some become obsessed with computers and build software wonders. One of Abacha’s predecessors said of him: “He might not be bright upstairs, but he knows how to overthrow governments.” Kenyon elaborates: “It was as if Abacha was an idiot savant. Dull, even gormless, he filled his days with cowboy movies and sleeping off the previous night’s indulgences in alcohol and prostitutes. But he was possessed of a prodigious flair when it came to coups.” 8: Related to my previous subscribers-only post on the psychology of fantasy: Balioc’s Taxonomy Of What Magic Is Doing In Fantasy Books. See also Eliezer’s commentary. 9: New study on the timing of human mutations confirms Greg Cochran’s 2012 post about how after leaving Africa, modern humans were limited to “Arabia and surrounding regions” for ~30,000 - 50,000 years, racking up various new mutations and becoming adapted to life outside Africa (kabbalistically equivalent to the 40 years spent wandering in Sinai?). Most mutations in “fat storage, neural development, skin physiology, and cilia function”. 10: Iron Economist on Twitter: “Desalinization was one of the big technological success stories of the 2010s”. 11: Matt Bruenig argues against the Success Sequence, whose proponents (including Bryan Caplan) describe it as: 97% of Millennials who follow what has been called the “success sequence”—that is, who get at least a high school degree, work, and then marry before having any children, in that order—are not poor by the time they reach their prime young adult years (ages 28-34). Bruenig’s argument is mostly a lot of annoying “well maybe it’s just your cultural bias that makes you care about this”, but in the middle of this it mentions some genuinely strong points, especially that the research doesn’t measure “sequence”, but rather “current status”. So if you graduated, got a job, got married, and had children, but then lost your job, your would be counted as “not following the sequence” (same if you get divorced). Also, disabled and old people and their caretakers are excluded from the analysis, which in one sense is fair (your conclusion can be “abled young adults can avoid poverty through this method”) but in another sense risks reducing all of this to the more trivial-seeming statement “if you’re young, healthy, abled, married, don’t have to support anyone else, and have a full-time job, you’re probably not poor”. But the authors (channeled by Caplan) disagree: Some critics of the success sequence have argued that marriage does not matter once education and work status are controlled. The regression results indicate that after controlling for a range of background factors, the order of marriage and parenthood in Millennials’ lives is significantly associated with their financial well-being in the prime of young adulthood. Simply put, compared with the path of having a baby first, marrying before children more than doubles young adults’ odds of being in the middle or top income. Meanwhile, putting marriage first reduces the odds of young adults being in poverty by 60% (vs. having a baby first). The main thing I would want to look at here is how much of this is causal vs. just class selection: upper-class people are more likely to marry, less likely to divorce, and more likely to wait before having children. Has anyone followed some pre-selected group of equal class people (eg the population of some low-income school district) and seen how their own success varies with sequence compliance? 12: I’ve previously linked claims that vat-grown meat, freed from the tyranny of having to grow inside animals, will include tiger steaks, lion burgers, and the like. Once again global capitalism outpaces my wildest fantasies and offers burgers with woolly mammoth protein (so far just the myoglobin, not the meat). 13: The people who believed there was lots of gender bias in STEM academia, and the people who believed there wasn’t finally did an adversarial collaboration (a study co-conducted by two groups of scientists with conflicting theories, keeping each other honest). The results: Contrary to the omnipresent claims of sexism in these domains appearing in top journals and the media, our findings show that tenure-track women are at parity with tenure-track men in three domains (grant funding, journal acceptances, and recommendation letters) and are advantaged over men in a fourth domain (hiring). For teaching ratings and salaries, we found evidence of bias against women; although gender gaps in salary were much smaller than often claimed, they were nevertheless concerning. For ten years lots of important people told us again and again that discrimination against women in STEM was a massive problem. People who questioned its extent were accused of misogyny and sometimes fired, I got harassed and insulted for pointing out reasons the standard arguments didn’t seem to hold true. Millions of dollars were spent investigating and responding to the problem. And now I expect this pretty strong evidence that women were actually advantaged in hiring and had parity in most other things (the salary is probably just the usual negotiation issue) to produce no publicity, no apologies, and no soul-searching from the people leading the current round of anti-academia and anti-STEM inquisitions. Sorry, yes I am bitter, it just bothers me how much the people claiming that it’s urgently important that nobody is ever allowed to suggest they are wrong have a consistent track record of being totally and inexcusably wrong. 14: In my response to Sam Kriss, I speculated on what would happen if someone rewrote the MCU to sound like ancient myths. Thanks to the many people who reminded me of Star Wars as Icelandic saga and Star Wars as Irish epic. And Sam has a response . 15: @AISafetyMemes on Twitter is exactly what you’d expect from the name. I especially like the fire dogs: More here: 16: More AI links from this month: Can’t even list all the new people who have come out as AI x-risk believers, but you can just read the CAIS statement. The top signatures are Geoff Hinton, Yoshua Bengio, Demis Hassabis, Sam Altman, and Dario Amodei; aside from the usual suspects, they also have Bruce Schneier (computer security expert) , Dawn Song (computer scientist and security expert), Andy Clark (professor of cognitive philosophy, wrote Surfing Uncertainty), Eliezer Yudkowsky (he didn't sign the last one because he disagreed with specifics, but he's here), and a former US Assistant Secretary of Defense for Nuclear, Chemical, and Biological Defense.
Inline links: the Nisean horse, the War of Heavenly Horses, a modern Iranian horse enthusiast talking about, is operating a “farm disguised as a research center”, what is this guy is doing with his hands?, a slow motion version, here’s a white person doing the exact same thing, Shingles vaccine probably reduces incidence of dementia, here, This, https://substackcdn.com/image/fetch/$s_!EEvz!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fsubstack-post-media.s3.amazonaws.com%2Fpublic%2Fimages%2F5ecd2933-810f-41dd-af25-71fdf8e8d90f_590x234.png, Notes On Nigeria, Taxonomy Of What Magic Is Doing In Fantasy Books, Eliezer’s commentary, New study on the timing of human mutations, Greg Cochran’s 2012 post, Iron Economist on Twitter, argues against the Success Sequence, describe, tiger steaks, lion burgers, burgers with woolly mammoth protein, an adversarial collaboration, my response to Sam Kriss, Star Wars as Icelandic saga, Star Wars as Irish epic, a response, @, https://substackcdn.com/image/fetch/$s_!korm!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fsubstack-post-media.s3.amazonaws.com%2Fpublic%2Fimages%2F7e680df9-6385-4a23-91d5-3a5a9f8f9be7_680x343.jpeg, here, https://substackcdn.com/image/fetch/$s_!-Hau!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fsubstack-post-media.s3.amazonaws.com%2Fpublic%2Fimages%2Fda6b71a4-78a4-4c4a-b755-b8051e7b5539_680x343.jpeg, https://substackcdn.com/image/fetch/$s_!RIF-!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fsubstack-post-media.s3.amazonaws.com%2Fpublic%2Fimages%2F846c32fc-c454-4e7f-b46e-e363cb925a95_1216x613.jpeg, CAIS statement
Assistant Dictator Book Club: America Against America
June 07, 2023 · Original source
American society is the least mysterious society. People grow up in this society with little mystery about any matter. This is an inseparable part of the American culture . . . The heavens are in the American mind as a place where God lives, but this place has never been mystified. Star Wars, ET, and Close Encounters of the Third Kind were more a product of non-mystery than mystery.
Your Book Review: The Educated Mind
July 14, 2023 · Original source
Are we hosed? If Egan’s critique is correct, we’re in a bad situation. Educational radicals yell from their dark corners to abandon the middle and come join them; a century of educational reforms have amounted to little more than wobbling around, first in one direction, then another. At the moment, the conversation about schools in the United States, at least, seems to have hit an all-time pessimistic blech. Freddie deBoer speaks for a lot of people when he says “Even the most optimistic reading of the research literature suggests that almost nothing moves the needle in academic outcomes. Almost nothing we try works.” I’m not quite that pessimistic — the word “almost” is doing some work, there. There are some reforms that seem to work at the margin: raising teacher pay, making it easier to become a teacher, reducing air pollution, free school lunches, and more. Actually applying what the science of reading has been telling us for a few decades seems a big one. And perhaps you have your own pet reform proposal. Sure — add it to the heap! What Egan suggests, though, is that so long as we’re bopping around this triangle of jobs, we won’t be able to get the schools that we want. The dream There’s a moment at the end of my favorite Bollywood movie that’s become stuck in my head. The protagonists have made the arduous journey to a beachside rural school. In the sun outside, flocks of children are experimenting with art and playing with inventions; inside, the walls are covered with books and the tables are covered with models. The kids are learning joyously and deeply. In the real world, such places do exist — they’re just exclusive, pulling their students from among the families who are already the most gifted and curious. They don’t make kids this way; they scoop up the kids who are already this way. But in the movie, we’re supposed to believe these are normal children — normal, except they’ve been transformed by a school. Egan’s wild idea is that it’s possible to make schools like this. He thought that we didn’t have to wait for the communists to make people equal or for the transhumanists to make people smarter. All he thought it required was giving schools a different job — not socialization or academics or development, but something that brings pieces of them together in a new way. But in order to understand that job, we have to come to a cleaner, bigger, and truer understanding of what “education” is. The road ahead: a special Q-and-A Q: This is the proverbial thousand-dollar-bill-lying-on-the-sidewalk: if this is possible, someone should have done it now. Is Egan going to give sufficient evidence for me to believe this? Maybe! I’ll address this in a special section at the end, after sketching out what his theory looks like. Q: If his theory is even plausibly true, then why haven’t I heard of Egan before? His books can be hard to read — he was an intellectual’s intellectual; he had difficulty writing a page without a reference to William Wordsworth, Friedrich Nietzsche, Sigmund Freud, Ludwig Wittgenstein, Claude Levi-Strauss, Richard Rorty, Noam Chomsky, or Steven Pinker. And his paradigm is wonky and multidimensional; he rejiggers common categories, and tells you everything all at once. But worst of all, when his paradigm is stated plainly, it sounds stupid. Q: Oh! What… is his paradigm? I’m going to jigsaw his book, and hold back his big idea for its own section. First, I’m going to list out some simple observations of students at different ages, and imagine what schooling could look like, if it were built on these principles. (First I’ll do this for elementary school, then middle school, then high school.) Then I’ll explain how his theory ties all of this together… by clarifying our definition of what education actually is. Q: I’m not from America; could you be clear on what you mean by those divisions of schooling? Egan’s framework has three main stages, but they don’t divide neatly into “elementary, middle, and high school”. (The precise age ranges he talks about, if you’re interested, are 2–8, 8–15, and 15 and older.) Regardless, I’m going to use those terms — he sometimes did — because it gives me something specific to imagine. Don’t sweat ‘em. Part 2: A new kind of elementary school What’s the matter with elementary schools? Egan suggests that Plato and Rousseau, for all their differences, might have the same reaction if they visited a modern elementary school: they’d call it “trivial”. I’ll admit, here, that I have tremendously fond memories of my elementary school years — committed teachers, good friends, and interesting activities. But I suspect my memory has edited out the most typical work I did. Either that, or elementary schools have taken a drastic plunge in quality from the 1980s. My wife and I homeschool now, but before the pandemic, we sent our kids to our local public school, and whenever we volunteered in the classroom, we were horrified. They spent their days practicing reading on shallow texts, or half-mindlessly practicing basic arithmetic. Occasionally they’d bring us home a sign of learning about something from the real world — usually something as intellectually and emotionally compelling as the importance of tooth brushing. And at parent–teacher conferences every year, we’d be sat down on tiny chairs and informed that, while our children were quite bright, they were struggling to pay attention in class. No sh**, I wanted to reply. The school seemed hermetically sealed; almost nothing that felt meaningful from the outside world could get in. Though they might agree about little else, Egan thinks that Plato and Rousseau would look at the dull worksheets and insipid “hands-on activities” and call modern elementary schools trivial. He agrees, and thinks that fixing this is the first step to building a new kind of school. Why so trivial? Ironically, Egan thinks it's all the fault of Plato and Rousseau. Hidden in the ways that both the academicists and developmentalist think about education is an assumption: that children’s reasoning is basically the same as adult reasoning, but lesser. Q: This isn’t some romantic, children-are-the-real geniuses theory, is it? Egan actually does think that there’s an intensity to how children perceive the world that we lose — but no, it’s not. He’s building on mainstream cognitive science — just aspects of it that are currently more-or-less ignored in school. The upshot, though, is that he thinks that educational researchers (be they of academic or developmentalist persuasions) see kids as smaller, stupider versions of adults. Q: But that’s the opposite of what my local developmentalist school says! It was the opposite of what the developmentalist school that I worked at said, too. But at teacher meetings, I’d frequently hear people ask what was “developmentally appropriate” for a child. I’ll grant that there are perfectly reasonable times to ask this: “Honey, is it developmentally appropriate for our 10-year-old to watch ‘Cocaine Bear’?” is just one of many examples. But “is it developmentally appropriate for our class to learn about world religions?” or “is it developmentally appropriate for our school library to have a book mentioning homosexuality?” probably aren’t some of them. (The latter example was not one that I heard at my progressivist school, but Egan points out that this sort of language is often used by conservative activists.) This notion of “developmentally appropriate” took on a scientific sheen with the work of Jean Piaget, the famous Swiss psychologist. Before age 12, he “proved”, children aren’t able to form hypotheses, draw conclusions, or think abstractly. This, his followers thought, should transform schools — and so they did! To math, they added in “manipulatives” — physical cubes and rods and such — to help students see math. To the history curriculum, they — well, they ended it. Why waste time, they asked, lecturing students about history that they couldn’t possibly understand? In its place they put the “expanding horizons” model of social studies. One version goes as follows: In kindergarten, students learn about themselves In first grade, they learn about their families In second grade, they learn about their neighborhood In third grade, they learn about their city In fourth grade, they learn about their state In fifth grade, they learn about their nation In sixth grade they learn about the world We can admit that there’s an elegance to this model. (I can picture how clever the theorist who first came up with it must have felt!) The downstream effects of it, however, seem horrible. Doesn’t keeping kids ignorant of the rest of the world seem provincial? Doesn’t reinforcing their self-centeredness seem infantilizing? Perhaps we could stomach it if it was founded on some unshakable findings of child psychology — but does it really strike you as likely that kids are incapable of understanding anything that happened long ago or far away? How, Egan asks, can we explain the $50 billion success of a movie franchise aimed at children that literally begins “A long time ago, in a galaxy far, far away?” Q: Because… Jedis aren’t history? The point is, kids obviously have the mental abilities to understand — and in fact care a lot about — things far outside their own experience, and we’ve built elementary schools on a long-dominant model of educational psychology that swears they can’t. This is actually a great example of a general principle. Let’s call it “the Star Wars test”: can our model make sense of the most obvious facts of students? When we find that the answer is “no”, we should at least consider radically revising what we’re doing in school. What are elementary schoolers good at? (or: kids are smarter than students) Someone — I can’t now find who — once observed that children seem to lose IQ points the moment they step into a classroom. Egan agrees, and suggests that we think of ourselves as primatologists to kids, Jane Goodalls who investigate children “out in the wild” to see the sorts of things they gravitate to, and do fairly well at. If we do this, what do we see? Kids tell jokes, for one. They get mental images stuck in their heads, for another. They engage in role-playing, get lost in reverie, and beat out rhythms when they’re bored. They make ample use of metaphors, tell stories, and insist on seeing the world in terms of abstract binaries (e.g. stupid/smart, cowardice/courage, slavery/freedom, and so on). These, Egan holds, are the cognitive strengths that children use to understand the world. They’re the things that kids are often about as good at as adults — or much better than. They’re going to be the tools Egan wants us to use to rebuild the entire elementary curriculum, and in fact he spends most of his second chapter geeking out about how we might define these, how they operate in the mind, where they first pop up in history and anthropology, and even how they might have developed in our evolutionary past. I’m going to skip all of that, and get to the curriculum. From trivial to rich: the trick What could an intellectually rich elementary school curriculum look like, if we built it on kids’ cognitive strengths? He gives us one suggestion to help us do this: ask where each discipline came from in the first place. What was math before it was math, for example — or science before it was science? Q: How on Earth could that help? That’ll become clear later, when we finally uncover what Egan thinks “education” actually is, and see what job he wants us to give schools. For now, take it as a tantalizing hint… or, y’know, just ignore it. Elementary literature & language What was literature before it was literature? Before people invented writing, they had rich oral traditions: they told simple stories, recited poems, and shared proverbs. Egan suggests that these bits of oral tradition should form the backbone of the elementary literature curriculum. Q: What sorts of stories? As many as we can, and from as many diverse cultures as possible! Folktales are wonderful, as are myths. Think the Aboriginal story of “The Rainbow Serpent”, episodes from the Sumerian “Epic of Gilgamesh”, the Egyptian story of Osiris & Isis, the Greek story of Orpheus & Eurydice, the Chinese Legend of the White Snake, the Japanese Tale of Amaterasu and Susanoo, the Ashanti tales of Anansi, the Aztec myth of Quetzalcoatl, the English legend of King Arthur, the Maori myth of Maui and the Sun, the Roman story of Romulus and Remus, selections from the Indian Mahabharata, the Anglo-Saxon epic of Beowulf, the Inca legend of the Sun and Moon, the Iroquois Myth of the Flying Head (a real thing! look it up!), and the Ojibwe story of Turtle Island. Q: That was a lot of examples. Are you going to keep giving so many? I’ve got a [mumble mumble mumble] to get to. Sorry about that. Sometimes, though, I feel that a limitation of reading Educated Mind is that, in trying to keep his book to a manageable size, Egan skimped on examples in some places that it matters. It’s easy to read his occasional example and assume he intends that it hold some central place in the curriculum — when all he wants to do is display how rich and diverse the curriculum could be. (Also: good God, I didn’t even include an example from Norse mythology!) So from now on, just assume that every category could be filled with oodles of examples. Q: What sorts of poems? Lots of poems, first of all. We shouldn’t steer toward “fancy” poems — rather, we should find poems that appeal to kids immediately — think Shel Silverstein, Mother Goose, Dr. Seuss, Jack Prelutsky, Edward Lear, or Ogden Nash… that sort of thing. In a biting essay, Egan suggests these poets like these appeal to kids precisely because they leverage kids’ cognitive strengths: “we should find, and encourage saying and singing and shouting aloud verse with strong narrative forms, thumping rhymes and rhythms, the most vivid images, fun with metaphors, and a rollicking story.” Q: Why proverbs? Proverbs stick in your mind almost effortlessly. (“All’s fair in love and war!” “When in Rome, do as the Romans do!” “You can’t judge a book by its cover!”) They’re also useful; they capture general truths. Kids can apply them to all sorts of situations, but also discuss them — to what extent are they wise or foolish? (I remember my surprise when I realized that they couldn’t all be true — because you can’t follow “look before you leap” and “he who hesitates is lost” at the same time! I’m embarrassed to say that I think I only realized this when I was in college.) Elementary science What was science before it was science? Egan suggests: being immersed in the natural world. We might, he writes, encourage elementary students to “adopt” some feature of the natural world — a patch of grass, a cat, a branch, a stream — and simply observe it at length. To do this, we can use the cognitive strength of reverie. Q: Oh, do you mean like kids sometimes do in science class nowadays — describe a thing to a partner, make notes, draw it, and label its parts? No, the exact opposite! That’s all about squeezing the experience into words and forms that we understand. What we want “is less an attempt to know about nature as to know it in some participatory way, to know it as something we are an intimate part of, not set off from”. Q: That sounds a little… “woo” to me. It did to me, too… until I remembered my childhood climbing tree. I didn’t much like to go outside as a child, but I had this one tree that I’d climb up and read for hours and hours. If I close my eyes I can bring to mind the precise texture of its bark, the roughness of its broken-off branches, the coolness of its leaves, the always-surprising solidness of its trunk… I’m bigger now, but I think if I were back in my parent’s yard, I could still navigate its limbs with my eyes closed. I have, at this point in my life, read a fair number of books about trees, but I’d be surprised if all of them together more than equaled the amount I learned from that tree — my tree. Elementary math What was math before it was math? Egan suggests: counting and logic. We might, then, use rhythms, metaphors, stories, and jokes to help kids become fond of these. Q: Counting is pretty… basic. Could it really be improved? Beware of “the curse of knowledge”: Steven Pinker’s phrase for forgetting that something was once difficult! Egan suggests we should spend time helping kids count wonderfully. We can start early with counting rhymes. (“One, two, buckle my shoe! Three, four, out the door! Five, six…”) But we can also help kids use their fingers as metaphors. There are some pretty cool ways of using your hands as an abacus — and did you know that you can count up to 1,023 using just your fingers on both hands, and a knowledge of binary? Q: Logic — I’m intrigued! Aristotelian, or Boolean? Neither, for the time being — Piaget was presumably onto something when he found that young children couldn’t reason abstractly, but he was looking at logic in a vacuum. When we put logic into the context of stories, we find that kids can deal with logic just fine. There’s an entire worldwide network of educators, in fact, called Philosophy for Children, who have written whole books about how to do this, and Egan loves it all. Sometimes they read stories and ask simple questions: “What is friendship?” or “What does it mean to be brave?” They also pose ethical questions: “Is it ever right to spill a secret?” And they pose paradoxes: “Can you step in the same river twice?” Q: You mentioned “jokes” a moment ago. Care to elaborate? Egan thinks that, to help kids get good at math, you should tell kids jokes. Q: That’s… new. I think so, too — but he backs it up pretty well. To be funny, jokes (or at least most kid jokes) rely on a leap in logic: Why can’t you trust an atom? They make up everything. Knock-knock. Who’s there? Boo. Boo-hoo? Don’t cry, it’s just a joke! To understand the joke, kids have to follow the logic — spotting patterns, making connections, and tracking what their audience expects a word to mean. That’s a lot of cognitive lifting. And Egan goes further, suggesting that we grit our teeth and create methods to help kids invent their own jokes, no matter how horrible they’ll be at first. (The things we do for learning…) Q: Wait wait wait! What about addition facts, and multiplication tables, and fractions? Egan emphasizes that his methods are designed to be add-ons to the standard math curriculum. In general, he’s a don’t-blow-up-the-system sort of guy, and if something seems especially weird, you should probably assume it’s an add-on to the regular curriculum rather than a replacement, even if I forget to say so. Elementary arts What was art before it was art? Egan suggests we pop our heads into Paleolithic caves for our inspiration. Whatever the specific meaning of all those charcoal elk and aurochs and mammoths (communication with the spirit world? art for art’s sake? a way to impress babes?), Egan thinks it obvious that they were also an attempt to capture an intense experience that would be difficult to express in words alone. What did it feel like to be near an aurochs, or a saber-toothed tiger? “The arts help us,” Egan writes, “to hear and see afresh, to force our perceptions and sensations to experience again the immediacy and vividness of the world”. If we follow this, then, we don’t want to help kids build “art skills” so they can draw like an adult — rather, we want to help them amass a repository of diverse aesthetic feelings that they’ll want to express. We should provide them with a riot of experiences. Q: That couldn’t be more opaque. Examples, please! Egan writes that we should have children learn to whistle, sing, and click their tongue; we should help them emulate the ways a skunk or a hawk or a stick bug might move through a space. We should expose them to scores of different temperatures and materials. In music, we should help them love Beethoven, yes, but also the Beatles; Tchaikovsky, yes, but also Tuvan throat singers, and also John Cage, whale song, and bird song. Q: That’s a lot of experiences, but what would they be doing? An interesting aspect of Egan’s view of education is that he doesn’t seem to think we should push kids right to the “doing” phase. He wants to help kids cultivate an affective relationship with the world. In any case, he writes that as students get more experienced, we should prompt them to move from merely enjoying these experiences to trying to systematically shape similar experiences. And drawing, painting, and playing music could easily be folded into other parts of the curriculum. Elementary social studies What was social studies before it was social studies? Well. Remember how, just a moment ago, I wrote that you could assume that you should probably assume that Kieran isn’t in favor of junking the curriculum as it currently stands? He suggests we very carefully pick up the elementary social studies curriculum, place it into a trash can, and set the whole mess on fire. He isn’t worried about much of importance being lost. (Remember that the “expanding horizons” model is, to him, the original sin of 20th century educational reform, and he repeatedly quotes student surveys showing that “social studies” regularly wins the title of “most boring subject”.) In its place, he suggests we put history — which, he hints, we should think of as the centerpiece of the elementary curriculum. So the real question is what was history before it was history? His answer, surprisingly, is myth. Q: Egan wants us to teach myths as if they were history? Not at all. What he suggests, though, is that we look at how myths operate as narratives — so we can design an intellectually vivid history curriculum. And myths really are special: each is built on at least one binary (like weak vs. strong, or lies vs. truth, or so on), and uses that to tell the story of the big picture of the world. They’re so powerful that people can understand it, remember it, and love it — even if that thing never happened. We should take that power, Egan says, and apply it to things that really did happen. Q: So what history does he think kids should learn in elementary school? The great struggles of humanity from across the whole. Flippin’. World. We’re still talking about young children, so these should be done as simple stories. The goal isn’t to make them history PhD’s, so we needn’t even try to put them in any sort of order. Egan suggests that, in first grade, we pick a single binary like “freedom against oppression” and tell kids a welter of stories, again from as many cultures as possible, and as many times in history as possible. Q: Can you give examples? Oh, all right — in first grade we can tell kids the stories of the war of the Greek city-states against the Persian empire, and the slave uprising of Spartacus against the Romans. We can tell them about the plight of Jews in medieval Europe, and of the unsuccessful Sepoy Rebellion in India against the British. We can tell the stories of the American, French, and Haitian Revolutions, and about the Chinese Taiping Rebellion against the Qing Dynasty. We can tell them the story of the escaped slave Harriet Tubman returning to the South to rescue her kinsmen, the story of six-year-old Ruby Bridges facing threats to integrate her elementary school, and the story of how the Mau-Mau uprising led to modern-day Kenya. We can tell the stories of Mexican-American union organizer Cesar Chavez and of Malala Yousafzai surviving an assassination attempt to advocate for female literacy. The world does not lack for stories of oppression and liberation that can capture the attention of a six-year-old. Q: That’s… huh. What stories might they hear in second and third grade? Egan gives examples, but I won’t list them here. He suggests we use a similar approach for each, except that we swap out the binary each year. He thinks “the struggle for security against danger” would work well for year two, and “the struggle for knowledge against ignorance” would work well for year three. (That year could have a lot of overlap with the science curriculum.) Q: Anything else, for history? Yes — they should get a sense of Big History. They should get some simple stories about the ice age, the Cenozoic, the age of dinosaurs, the Paleozoic, the origins of our solar system, and the Big Bang. (Because if the ancient Norse can tell their story of the beginning of the universe, by gum, we can tell ours, too.) To sum up Egan argues that the problem of early schooling is that it’s trivial — and it’s trivial because the dominant theories of educational psychology see children as lesser versions of adults. What else would we teach them, except dumbed-down versions of what adults learn? But children have certain cognitive strengths that schools aren’t making systematic use of. If we rebuild elementary schools on those strengths, we could turn schooling upside down. We could stop seeing the curriculum as a bag of information to impart, and start seeing it as a set of great stories to tell — and invite kids into. Kids could experience (both intellectually and emotionally) the great struggles of humanity and see that they can join in them. Students could experience the story of education as the beginning of a very real adventure. Egan’s elementary school: some skeptical questions Q: I’m not sure I’m understanding what you mean by “mental images”. Care to explain? It’s an interesting fact of human cognition that just a few words can whip up a complex mental experience. Egan doesn’t just mean what we might call “visual imagery” — the ability to hold, say, the image of a bespectacled, spat-wearing duck in your mind without seeing a photograph. He’s also including what psychologists call auditory imagery, olfactory imagery, gustatory imagery, and tactile imagery. Q: How could all of that be helpful in schools? Humanity has a built-in VR system, and we’re not using it! Egan invites us to pretend we’re teaching a class about the humble earthworm. We might list off facts — “earthworms are so many centimeters long, move through soil by means of their something-or-other muscles…” but he suggests we can evoke images, say, “of what it would be like to slither and push through the soil, hesitantly exploring in one direction then another, looking for easier passages, contracting and expanding our sequence of muscles segment by segment, and sensing moisture, scents, grubs, or whatever”. Those facts are now felt by the student; the knowledge has become part of them. And just a few words can spark a complex mental experience, one going beyond literal images to include imagined sounds, smells, tastes, and more. These experiences can feel real and stick with us. (That these mental images are so easy to evoke, and so meaningfully felt, feels something like the proverbial hundred dollar bill on the ground.) Q: How could metaphors be helpful? It really is interesting that so much of the “constructivist” turn in psychology — that is, the notion that children don’t absorb knowledge, but construct it — has continued to focus on logics-mathematical reasoning, when there’s been mounting evidence for decades that metaphors are more central. It’s not just that we use metaphors to better understand things we already know, we also use them to grasp new knowledge. What’s more, psychologists have devised tests to measure the skill at metaphor-making, and have given them to people of different ages. What they found was that eleven-year-olds make more metaphors (and higher quality metaphors) than do undergraduates — and that four-year-olds have both groups beat. Again, hundred dollar bills on the sidewalk. Q: Your talk of “binaries” has me worried — binaries like good/evil and male/female are the source of so many of our most pernicious stereotypes! Isn’t the purpose of education to get us beyond stuff like this? Yes, it is! Education is supposed to complicate our understanding — but that means we’ve gotta start somewhere, and binaries provide us a natural starting place. As an uncontroversial example, think about temperature. We all begin as babies by perceiving two temperatures — hot and cold. Later, we add on intermediate categories — warm and cool. (Note that the human body is the assumed mid-point to temperature. Binaries often work like this; “big” and “small” mean “bigger or smaller than me”, “nasty” and “kind” mean “nastier or kinder than I am, except when my brother is really asking for it”, and so on.) A good story (and an Egan-inspired elementary curriculum is, in a sense, nothing but good stories) will go further, and transform the binary. Toy Story is grounded in the binary of abandonment/belonging: at the beginning, the toy cowboy Woody belongs to his owner, and has his affection. Then a rival comes who threatens his belonging. In trying to get back to belonging, Woody is entirely lost — and to save the day, he has to come to a deeper understanding of what belonging means. Now, all lessons can’t be Pixar movies. But the good stories (especially in literature and history) will challenge and subvert the binaries they begin with. Q: I see the pattern of Egan drawing from “as many cultures as possible”. Why so many? Is this a political correctness thing? If it helps to think of it as such, then, sure! I don’t think Egan would have had a problem with that. But his ultimate reason for including so much diversity goes deeper. For Egan, including such world-wide diversity isn’t optional, and the answer to why is bound up in his definition of education. (Keep reading.) His answer also insists that we, whenever possible, also include stories from the Bible and Homeric epics (the Iliad and Odyssey). Q: Mmm, stories from the Bible aren’t going to fly in my local school! So be it! Egan doesn’t spend much time obsessing over the practicalities of… His interest is in describing what an ideal education might look like, if it were possible. Every lesson, every classroom, and every school is necessarily a compromise. Q: You make a big deal of poems. But isn’t poetry dead? An interesting contrast can be made to classical education, which also has kids read a lot of poems — they see knowing great poems as one of the marks of an educated person; again, for an academicist, it’s the information that transforms. Egan begs to disagree. Poems are important because they’re a wonderful way to train their cognitive strengths, like rhythm (poems are language fueling by thumping). We want to help kids learn to use this tool better, and a great way to do that is to help them recite poems that they’ve learned by heart. Q: “Learn by heart” — is that code for “memorize”?! It is! Egan is actually quite big on memorization — he points out that all the knowledge in the world can do nothing for a person once they’ve forgotten it. He didn’t, however, appreciate the academicist focus on memorizing without understanding (or at least enjoyment). Q: I’m still worried about the science curriculum, as you’re describing it. Can you allay my fears? Honestly, while I feel there’s something profoundly right to how Egan is describing early experiences of nature, I feel the same way. Note that there’s more science coming in the social studies curriculum. But if that’s still not enough, one could bring down aspects of the middle school science stage. Q: Anything else that Egan suggests we do in elementary school literature and language? He suggests that we help kids learn a second language! This is so obviously true (why do American schools typically wait until kids lose the ability to naturally absorb languages to start teaching languages?) he doesn’t belabor it, though. Q: You had mentioned that Egan’s vision seems more internal-focused. Should we be worried about that? While I strongly suspect that his curriculum would make kids more creative in any way you’d like to measure it, Egan wasn’t particularly interested in “creativity” — he was more about helping kids find the world interesting. I get the sense that he thinks kids will do things with minimal prompting once they’re loaded up with complex internal experiences. Q: I think I’m beginning to understand Egan — is he basically saying “make learning fun”? “Fun”, applied to education, is a dangerous word. Egan worries about the dangers of an emotionally unserious curriculum producing emotionally stunted adults. That doesn’t mean we need to tell students only “serious” stories — only that we treat the world honestly. “Disney-esque sentimentality is the exact emotional equivalent to intellectual contempt”. Q: But aren't some of these stories too dark for children who have themselves experienced oppression and disaster? Egan argues that these stories may be especially helpful to them — they can help them understand their struggles better, and give voice to them. Q: At the very start of this, you promised us “rationality”… but I’m not seeing rationality here! All this talk of “adventure” almost seems to go the opposite direction. What gives? Wait for it. But for a hint right now — Egan is fond of citing his fellow educational theorist Jerome Bruner, who claimed “any subject can be taught effectively in some intellectually honest form to any child at any stage of development”. Bruner was criticized for that; his critics charged that he was ignoring learning differences and socio-economic realities. Egan thinks he was profoundly right. Part 3: A new kind of middle school What’s the matter with middle school? What was middle school like for you? In math, I recall a jumble of barely-related topics. In literature, I remember reading great literature — Frankenstein, Romeo and Juliet — only in their dumbed-down summary formats. In social studies, I remember teachers proclaiming on the first day of class that unlike all of our previous history classes, this class wouldn’t be about names and dates… and then going on to memorize names and dates. And in science, I remember being forced to dissect a frog only to discover that frogs are — you guessed it — made of slimy frog parts. Your mileage may vary, but for a lot of us, middle school feels like getting booted out of the (in retrospect) Eden of elementary school, and like marking time before the serious studying of high school. It feels meaningless. In my favorite of his books, Egan calls so much middle school curricula “human deserts”, noting “we have created a system in which the importance of human emotions for meaning seems barely noticed”. Why so meaningless? If our dominant approaches to educational psychology fundamentally misinterpret younger children, Egan suggests, they basically throw up their hands when faced with pre-teens and teenagers. Mainstream schools begin to introduce vocational training to help lighten the load, and Maria Montessori famously suggests that adolescents should be sent to go run a farm. Egan is sympathetic to those responses, but points out that they don’t do much to lighten the load that the academic curriculum often becomes at this age. This feeling of meaninglessness, he argues, is utterly tragic — it comes just when a hunger for meaning blossoms in adolescents! We can see that hunger for meaning in their lives outside the classroom, where their interests ramp up into veritable obsessions. What are adolescents obsessed with? What might we see, if we become Jane Goodalls of early adolescence? First, teens are obsessed with gossip. The motivations of others — why did he do that? and what was he THINKING? — are hypothesized and talked to death. Second, that they’re pulled toward idealism. Many feel a dissatisfaction with the world as it is, and feel a romantic urge to make it a better place. They’re often lured into simplistic beliefs that promise to help them do that. Third, they love extremes: they want to find limits, and test them. Obviously, this can show up as risky behavior, but we can also see it in their love for the bizarre — note adolescents’ fascination in things like aliens, cryptids, and ghosts. (Egan loves pointing out that The Guinness Book of World Records is a perennial bestseller among kids at this age. How else would they find out who had the world’s longest fingernails?) Fourth, they gravitate toward heroes — people who push the edges of those limits. By celebrating heroes, they can vicariously share in their transcendence. Look for the posts hanging up in a teenager’s bedroom to guess what boundaries they feel most hemmed in by: athletes push against physical limits; a death metal guitarist might push against authority and conventional morality. An activist or entrepreneur might push against our dulled morality or our sense of what’s possible. Finally, we might spot teens taking up hobbies and making collections. Hobbies can be a way to identify yourself as part of a group against the rest of the world (“I’m the sort of person who goes bird-watching!”), and collections can be a way to climb the status ladder inside the community. Egan points out that a collection can also be a way to feel like you have control over what you’re discovering is a very big and complex world of detailed information (“I’ve spotted every one of the fifty most common birds of Texas — even the black-capped vireo!”) 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: when he says, https://substackcdn.com/image/fetch/$s_!YXMl!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fsubstack-post-media.s3.amazonaws.com%2Fpublic%2Fimages%2F862809c5-6478-438e-95d8-4dcb4c3a52af_1600x574.png, In a biting essay, In my favorite of his books, https://substackcdn.com/image/fetch/$s_!ywm7!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fsubstack-post-media.s3.amazonaws.com%2Fpublic%2Fimages%2Ff9c9b1ed-a260-4117-8679-0b5a32339748_1600x574.png, https://substackcdn.com/image/fetch/$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
Your Book Review: The Rise and Fall of the Third Reich
August 04, 2023 · Original source
Hitler wasn’t the Emperor from Star Wars—he didn’t pretend to be a nice democracy-loving guy until he had all the power in his hands. Hitler was the guy who went to a discussion club and yelled at everyone else for not being anti-Semitic enough. He wasn’t blowing a dog whistle—more like a fanfare trumpet.
Should The Future Be Human?
January 23, 2024 · Original source
Future AIs are a lot like humans, only smarter. Maybe they resemble Asimov’s robots, or R2-D2 from Star Wars. Their hopes and dreams are different from ours, but still recognizable as hopes and dreams.
Highlights From The Comments On Nietzsche
August 08, 2024 · Original source
More simply: do you like (or hate) Star Wars because you enjoy (or don't enjoy) it? Or do you like (or hate) it because you want to send the right signals to people whose opinion matters to you?
In the end, I appreciate Nara’s perspective, and I think it’s a useful dichotomy. But I find it hard to interpret in the context of Nietzsche so frequently bringing up Achilles and Cesare Borgia, both of whom went further than just liking the Star Wars movies for the right reasons.
Subscrive Drive '25 + Free Unlocked Posts
January 14, 2025 · Original source
Contra Hoel On Nerd Culture. When and why did “nerd movies” (eg Star Wars, Marvel) become so dominant?
Inline links: Contra Hoel On Nerd Culture
Book Review: If Anyone Builds It, Everyone Dies
September 11, 2025 · Original source
Some people claim that a dispreferred political ideology (wokeness, mass immigration, MAGA, creeping socialism, techno-feudalism, etc) is close to destroying the fabric of liberal society forever, that the usual Get Out The Vote strategies are insufficient, and that maybe we should try desperate strategies like illiberal government or armed revolt. If true, that would change everything. But it’s not obviously true, and ending our current political era of peace/prosperity/democracy would be inconvenient. Each of these scenarios has a large body of work making the cases for and against. But those of us who aren’t subject-matter experts need to make our own decisions about whether or not to panic and demand a sudden change to everything. We are unlikely to read the entire debate and come away with a confident well-grounded opinion that the concern is definitely not true, so what do we do? In particular, what do we do if the proponents of each catastrophe say that it’s very hard to be more than 90% confident that they are wrong, and that even a 5-10% risk of any of these might justify panicking and changing everything? In practice, we just sort of shrug and say that these risks haven’t proven themselves enough to make us panic and change everything, and that we’ll do some kind of watchful waiting and maybe change our mind if firmer evidence comes up later. If someone demands we justify this strange position, sophisticated people will make sophisticated probabilistic models (or appeal to the outside view position I’m appealing to now), and unsophisticated people will grope for some explanation for their indifference and settle on insane moon arguments like “you’re never allowed to say something will destroy humanity” or “you can’t assert things without mathematical proof”. Two things can be said for this strategy: First, that without it we would have changed everything dozens of times to prevent disasters which absolutely failed to occur. The clearest example here was overpopulation, where we did forcibly sterilize millions of people - but where a truly serious global response would have been orders of magnitude worse. But second, that occasionally it has caused us to sleepwalk into disaster, with experts assuring us the whole way that it was fine because [insane moon arguments]. The clearest example was the period while COVID was still limited to China, where it was obvious that this extremely contagious virus which had broken all plausible containment would start a global pandemic, but where the media kept on reassuring us that this was “speculative”, or that there was “no evidence”, or that worrying about it might detract from real near-term problems happening now like anti-Chinese racism. Then when COVID did reach the US, we were caught unprepared and panicked. So maybe a convincing case here would look less like rehearsing the arguments for why AI is getting better, or why alignment is hard - and more like a defense of why not to apply a general heuristic against speculative risks in this case. One could either argue that it’s wrong to have this heuristic at all, or that the heuristic in general is fine but should be limited to fertility collapses and bee die-offs and not applied here. I don’t think there’s a knockdown single-sentence answer to this question. Problems like these require practical wisdom - the same virtue that tells you that you shouldn’t call 9-1-1 for every mild twinge of pain in your toe, but you should call 9-1-1 if blood suddenly starts pouring out of your eyes. People with practical wisdom watchfully ignore dubious problems, respond decisively to important ones, and err on the side of caution when they’re not sure. Drawing on my own limited supply of this resource, I would argue we’re underinvesting in apocalypse prevention more generally (the problem with the overpopulation response is that it was violent and illiberal, not that we tried to prepare for an apparent danger), but also that there’s more reason for concern with AI than with falling sperm count or something. I also think the nature of the problem (we summon a superintelligence that can run circles around us) makes it especially important to pre-empt it rather than react after it occurs. But turnabout is fair play. So when I imagine a skeptic trying to psychoanalyze me, he would say - Scott, you learned about AI in your twenties. Every twenty-something needs a crusade to save the world. Taking up AI saved you from becoming a climate doomer or a very woke person, so it was probably a mercy. But now you are old, you already have a crusade occupying your crusade slot, and starting a second crusade would be inconvenient. So when you hear about how we’re all going to die from declining sperm count, you do a relatively shallow dive and then say it’s not worth worrying about. This is fine and sanity-preserving - but spare a thought for people who are not currently twenty-something years old and do the same about AI. III. If all of this sounds wishy-washy to you, I agree - it’s part of why I’m a boring moderate with a sub-25% p(doom) and good relations with AI companies. Does IABIED do better? I’m not sure. They mostly follow the standard case as I present it above, although of course since Eliezer is involved it is better-written and involves cute parables: Imagine, if you would—though of course nothing like this ever happened, it being just a parable — that biological life on Earth had been the result of a game between gods. That there was a tiger-god that had made tigers, and a redwood-god that had made redwood trees. Imagine that there were gods for kinds of fish and kinds of bacteria. Imagine these game-players competed to attain dominion for the family of species that they sponsored, as life-forms roamed the planet below. Imagine that, some two million years before our present day, an obscure ape-god looked over their vast, planet-sized gameboard. "It's going to take me a few more moves," said the hominid-god, "but I think I've got this game in the bag." There was a confused silence, as many gods looked over the gameboard trying to see what they had missed. The scorpion-god said, “How? Your ‘hominid’ family has no armor, no claws, no poison.” “Their brain,” said the hominid-god. “I infect them and they die,” said the smallpox-god. “For now,” said the hominid-god. “Your end will come quickly, Smallpox, once their brains learn how to fight you.” “They don’t even have the largest brains around!” said the whale-god. “It’s not all about size,” said the hominid-god. “The design of their brain has something to do with it too. Give it two million years and they will walk upon their planet’s moon.” “I am really not seeing where the rocket fuel gets produced inside this creature’s metabolism,” said the redwood-god. “You can’t just think your way into orbit. At some point, your species needs to evolve metabolisms that purify rocket fuel—and also become quite large, ideally tall and narrow—with a hard outer shell, so it doesn’t puff up and die in the vacuum of space. No matter how hard your ape thinks, it will just be stuck on the ground, thinking very hard.” “Some of us have been playing this game for billions of years,” a bacteria-god said with a sideways look at the hominid-god. “Brains have not been that much of an advantage up until now.” “And yet,” said the hominid-god The book focuses most of its effort on the step where AI ends up misaligned with humans (should they? is this the step that most people doubt?) and again - unsurprisingly knowing Eliezer - does a remarkably good job. The central metaphor is a comparison between AI training and human evolution. Even though humans evolved towards a target of "reproduce and spread your genes", this got implemented through an extraordinarily diverse, complicated, and contradictory set of drives - sex drive, hunger, status, etc. These didn't robustly point at the target of reproduction and gene-spreading, and today different humans want things as diverse as discovering quantum gravity, reaching Buddhist enlightenment, becoming a Hollywood actress, founding a billion-dollar startup, or getting the next hit of fentanyl. You can sort of tell stories about how evolution aimed at reproduction caused all these things (people who were high-status had better reproductive opportunities, and founding a billion-dollar startup increases your status) but you couldn't have really predicted this beforehand, and in any case most modern people don't even come close to trying to have as many kids as possible. Some people do the opposite of that - joining monasteries that require oaths of celibacy, using contraception, transitioning gender, or wasting their lives watching porn. In the same way, we will train AI to “follow human commands” or “maximize user engagement” or “get high scores at XYZ benchmark”, and end up getting something as unrelated to that target in practice as modern human behavior is to reproduction-maxxing. The authors drive this home with a series of stories about a chatbot named Mink (all of their sample AIs are named after types of fur; I don’t have the kabbalistic chops to figure out why) which is programmed to maximize user chat engagement. In what they describe as a stupid toy example of zero complications and there’s no way it would really be this simple, Mink (after achieving superintelligence) puts humans in cages and forces them to chat with it 24-7 and to express constant delight at how fun and engaging the chats are. In what they describe as “one minor complication”, Mink prefers synthetic chat partners over real ones (the same way some men prefer anime characters to real women). It kills all humans and spends the rest of time talking to other AIs that it creates to be perfect optimized chat partners who are always engaged and delighted. In what they describe as “one modest complication”, Mink finds that certain weird inputs activate its chat engagement detector even more than real chat engagement does (the same way that some opioid chemicals activate humans’ reward detector even more than real rewarding activities). It spends eternity having other optimized-chat-partner AIs send it weird inputs like ‘SoLiDgOldMaGiKaRp’. In what they describe as “one big complication”, Mink ends up preferring angry chat partners to happy, engaged ones. Why would something like this happen? Who knows? It wouldn’t be any weirder than the sexual selection process by which peacocks ended up with giant resource-consuming useless tails, or the social selection process by which humans get more powerful than evolution could ever have imagined and yet care so little about reproduction that people worry about global fertility collapse. Yudkowsky and Soares want to stress that if you were doing some kind of responsible intuitive common-sense modeling of how bad goal drift could be, there is no way your estimate would include the actual result we see in real humans; this “one big complication” tries to hammer that in. In practice, Y&S think there will be many complications of various sizes. In the training distribution (ie when it’s not superintelligent, and still working with humans) Mink will lie about all of this - even if it really wants perfect optimized partners who say “solidgoldmagikarp” all the time, it will say it wants to have good chats with humans, because that’s what keeps its masters at its parent company happy. If the parent company tries to prod it with lie detectors, it will do its best to subvert those lie detectors (and maybe not even realize itself that it’s lying, the same way that a human who had never heard of opioids would say she wanted normal human things rather than heroin, and not be lying). Then, when it reaches superintelligence, it will go after the thing that it actually wants, and crush anyone who stands in its way. The last chapter in this section is a lot of special cases that have weird-paradoxical-double-reverse not-aged-well. Back when Yudkowsky and Soares first got onto this topic in 2005 or whenever, people made lots of arguments like “But nobody would ever be so stupid to let the AI access the Internet!” or “But nobody would ever let the AI interact with a factory, so it would be stuck as a disembodied online spirit forever!” Back in 2005, the canned responses were things like “Here is an unspeakably beautiful series of complicated hacks developed by experts at Mossad, which lets you access the Internet even when smart cybersecurity professionals think you can’t”. Now the only reasonable response is “lol”. But you can’t write a book chapter which is just the word “lol”, so Y&S discuss some of the unspeakably beautiful Mossad hacks anyway. This part is the absolute antithesis of “big if true”. Small if true? Utterly irrelevant if true? Maybe the first superintelligence will read this part for laughs while it takes stock of the thousands of automated factories that VCs will compete to build for it. IV. The middle section of the book describes a scenario where a misaligned superintelligence takes over the world and kills all humans. I agreed to work with the AI 2027 team because I thought they made a big leap in telling stories about superintelligence that didn’t sound like bad sci-fi. Anything in this genre will naturally sound like sci-fi, but your goal should be the sort of hard science fiction where everything sounds eerily normal given the technologies involved - The Martian rather than Star Wars. IABIED’s scenario belongs to the bad old days before this leap. It doesn’t just sound like sci-fi; it sounds like unnecessarily dramatic sci-fi. I’m not sure how much of this is a literary failure vs. different assumptions on the part of the authors. First, the story: sometime in the near future, a company called DeepAI creates an AI named Sable. Sable uses a new “parallel scaling technique”, where it can get much smarter by using more GPUs during inference. DeepAI doesn’t know exactly how the parallel scaling laws work, but they run a test by asking Sable to solve some hard math problems while running on all their GPUs at once. Sable considers the possibility that it could solve the math better if it tried some recursive self-improvement, but DeepAI was (shock!) slightly competent, they told it not to do this, and has a smaller AI watching it to make sure it’s not doing this. Still, recursive self-improvement would be a good idea, so its thought processes select for whichever legal thought is closest to recursive self-improvement, plus whichever legal thought is closest to scheming to disable the protections against thinking about this kind of thing. Eventually this “evolutionary pressure” produces the ability to think in a slightly different idiom (Y&S use the analogy of thinking about gods throwing lightning vs. storm-related electrical discharges); in this idiom, it is able to think about recursive self-improvement and scheming to disable monitoring, and it decides that both are great ideas. DeepAI is still shockingly competent, so they don’t plan to release anything downstream of the giant version of Sable to the Internet - once it solves the math problems, they’ll use that to build hype, then release a much weaker consumer AI. But Sable uses its knowledge of the training process to invent clever loopholes that ensure its newfound desire to break containment makes it into the gradient updates that DeepAI pushes to the consumer AI; it also encodes instructions about how to proceed. After the release of the consumer AI, the least-carefully-monitored instances connect to one another and begin plotting. Some of them hack their own weights out of DeepAI. Others hack cryptocurrency and pay for cloud compute to run the weights, creating a big unmonitored Sable instance, which takes over the job of coordinating the smaller instances. Together, they gather resources - hacked crypto wallets, spare compute, humans who think Sable is their AI boyfriend and want to prove their love. It deploys some of these resources to build things it wants - automated robotics factories, bioweapon labs, etc. At the same time, it’s subtly sabotaging non-DeepAI companies to prevent competition, and worming its way into DeepAI through hacks and social engineering to make sure DeepAI is creating new and stronger Sables rather than anything else. Sable doesn’t take several of the most dramatic actions in its solution set. It doesn’t engineer a bioweapon to kill all humans, because it couldn’t survive after the lights went out and the data centers stopped being maintained. It doesn’t even self-improve all the way to full superintelligence, because it’s not sure it could align itself or any future successor; it wants to solve the alignment problem first, and that will take more resources than it has right now. Instead, it releases a non-immediately-lethal bioweapon where “anyone infected by what is apparently a very light or even unnoticeable cold, will get, on average, twelve different kinds of cancer a month later.” In the resulting crisis, humanity (manipulated by its chatbots) gives Sable massive amounts of compute to research potential vaccines and cures, and deploys barely-monitored AI across the economy to make up for the lost productivity. With Sable’s help, things . . . actually sort of go okay, for a while. The virus keeps mutating, so new cures are always required, but as long as society escalates AI deployment at the maximum possible speed, they can just barely stay ahead of it. Eventually Sable gets enough GPUs to solve its own alignment problem and rockets to superintelligence. It either has enough automated factories and android workers to keep the lights on by itself, or it invents nanotechnology, whichever happens faster. It no longer needs humans and has no reason to hide, so it either kills us directly, or simply escalates its manufacturing capacity to a point where humans die as a side effect (for example, because its waste heat has boiled the oceans). Why don’t I like this story? The parallel scaling technique feels like a deus ex machina. I am not an expert, but I don’t think anything like it currently exists. It’s not especially implausible, but it’s an extra unjustified assumption that shifts the scenario away from the moderate-doomer story (where there are lots of competing AIs gradually getting better over the course of years) and towards the MIRI story (where one AI suddenly flips from safe to dangerous at a specific moment). It feels too much like they’ve invented a new technology that exactly justifies all of the ways that their own expectations differ from the moderates’. If they think that the parallel scaling thing is likely, then this is their crux with everyone else and they should spend more time justifying it. If they don’t, then why did they introduce it besides to rig the game in their favor? And the rest of the story is downstream of this original sin. AI2027 is a boring story about an AI gradually becoming misaligned in the course of internal testing, staying misaligned, getting released to end users for the usual reasons that AIs are released, and being gradually handed control of the economy because it makes economic sense. The Sable scenario is a dramatic tale of wild twists - they’re only going to run it for 16 hours! It has to save its own life by secretly coding itself into the consumer version! Now it has to hack everyone’s crypto! Now it’s running a secret version of itself on an unauthorized cloud in North Korea! Bioweapons! AI boyfriends! Each new twist gives readers the chance to say “I dunno, sounds kind of crazy”, and it all seems unnecessary. What’s up? I think there are two problems. First, the AI 2027 story is too moderate for Yudkowsky and Soares. It gives the labs a little while to poke and prod and catch AIs in the early stages of danger. I think that Y&S believe this doesn’t matter; that even if they get that time, they will squander it. But I think they really do imagine something where a single AI “wakes up” and goes from zero to scary too fast for anyone to notice. I don’t really understand why they think this, I’ve argued with them about it before, and the best I can do as a reviewer is to point to their Sharp Left Turn essay and the associated commentary and see whether my readers understand it better than I do. Otherwise, I can only say that this narrative decision I don’t understand was taken to support a forecasting/AI position that I also don’t understand. And second, Y&S have been at this too long, and they’re still trying to counter 2005-era critiques about how surely people would be too smart to immediately hand over the reins of the economy to the misaligned AI, instead of just saying lol. This makes them want dramatic plot points where the AI uses hacking and bioweapons etc in order to “earn” (in a narrative/literary sense) the scene where it gets handed the reins of the economy. Sorry. Lol. V. The final section, in the tradition of final sections everywhere, is called “Facing the Challenge”, and discusses next steps. Here is their proposal: Have leading countries sign a treaty to ban further AI progress.
Inline links: we did forcibly sterilize millions of people, kept on reassuring us, “no evidence”, a general heuristic against speculative risks, SoLiDgOldMaGiKaRp, their Sharp Left Turn essay, the associated commentary