The Golden Guide to Hallucinogenic Plants: Explore the 1977 Illustrated Guide Created by Harvard’s Groundbreaking Ethnobotanist Richard Evan Schultes

in Biology, Science | December 3rd, 2024

I mean, the idea that you would give a psychedelic—in this case, magic mushrooms or the chemical called psilocybin that’s derived from magic mushrooms—to people dying of cancer, people with terminal diagnoses, to help them deal with their — what’s called existential distress. And this seemed like such a crazy idea that I began looking into it. Why should a drug from a mushroom help people deal with their mortality?

–Michael Pollan in an interview with Terry Gross, “‘Reluctant Psychonaut’ Michael Pollan Embraces ‘New Science’ Of Psychedelics”

Around the same time Albert Hofmann synthesized LSD in the early 1940s, a pioneering ethnobotanist, writer, and photographer named Richard Evan Schultes set out “on a mission to study how indigenous peoples” in the Amazon rainforest “used plants for medicinal, ritual and practical purposes,” as an extensive history of Schultes’ travels notes. “He went on to spend over a decade immersed in near-continuous fieldwork, collecting more than 24,000 species of plants including some 300 species new to science.”

Described by Jonathan Kandell as “swashbuckling” in a 2001 New York Times obituary, Schultes was “the last of the great plant explorers in the Victorian tradition.” Or so his student Wade Davis called him in his 1995 bestseller The Serpent and the Rainbow. He was also “a pioneering conservationist,” writes Kandell, “who raised alarms in the 1960’s—long before environmentalism became a worldwide concern.” Schultes defied the stereotype of the colonial adventurer, once saying, “I do not believe in hostile Indians. All that is required to bring out their gentlemanliness is reciprocal gentlemanliness.”

Schultes returned to teach at Harvard, where he reminded his students “that more than 90 tribes had become extinct in Brazil alone over the first three-quarters of the 20th century.” While his research would have significant influence on figures like Aldous Huxley, William Burroughs, and Carlos Castaneda, “writers who considered hallucinogens as the gateways to self-discovery,” Schultes was dismissive of the counterculture and “disdained these self-appointed prophets of an inner reality.”

Rather than promoting recreational use, Schultes became known as “the father of a new branch of science called ‘ethnobotany,’ the field that explores the relationship between indigenous people and their use of plants,” writes Luis Sequeira in a biographical note. One of Schultes’ publications, the Golden Guide to Hallucinogenic Plants, has sadly fallen out of print, but you can find it online, in full, at the Vaults of Erowid. Pricey out-of-print copies can still be purchased.

Described on Amazon as “a nontechnical examination of the physiological effects and cultural significance of hallucinogenic plants used in ancient and modern societies,” the book covers peyote, ayahuasca, cannabis, various psychoactive mushrooms and other fungi, and much more. In his introduction, Schultes is careful to separate his research from its appropriation, dismissing the term “psychedelic” as etymologically incorrect and “biologically unsound.” Furthermore, he writes, it “has acquired popular meanings beyond the drugs or their effects.”

Schultes’ interests are scientific—and anthropological. “In the history of mankind,” he writes, “hallucinogens have probably been the most important of all the narcotics. Their fantastic effects made them sacred to primitive man and may even have been responsible for suggesting to him the idea of deity.” He does not exaggerate. Schultes’ research into the religious and medicinal uses of natural hallucinogens led him to dub them “plants of the gods” in a book he wrote with Albert Hofmann, discoverer of LSD.

Neither scientist sought to start a psychedelic revolution, but it happened nonetheless. Now, another revolution is underway—one that is finally revisiting the science of ethnobotany and taking seriously the healing powers of hallucinogenic plants. It is hardly a new science among scholars in the West, but the renewed legitimacy of research into hallucinogens has given Schultes’ research new authority. Learn from him in his Golden Guide to Hallucinogenic Plants online here.

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Josh Jones is a writer and musician based in Durham, NC. Follow him at @jdmagness

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Isaac Newton Creates a List of His 57 Sins (Circa 1662)

in History, Physics, Religion, Science | November 25th, 2024

Sir Isaac Newton, arguably the most important and influential scientist in history, discovered the laws of motion and the universal force of gravity. For the first time ever, the rules of the universe could be described with the supremely rational language of mathematics. Newton’s elegant equations proved to be one of the inspirations for the Enlightenment, a shift away from the God-centered dogma of the Church in favor of a worldview that placed reason at its center. The many leaders of the Enlightenment turned to deism if not outright atheism. But not Newton.

In 1936, a document of Newton’s dating from around 1662 was sold at a Sotheby’s auction and eventually wound up at the Fitzwilliam Museum in Cambridge, England. The Fitzwilliam Manuscript has long been a source of fascination for Newton scholars. Not only does the notebook feature a series of increasingly difficult mathematical problems but also a cryptic string of letters reading:

Nabed Efyhik
Wfnzo Cpmfke

If you can solve this, there are some people in Cambridge who would like to talk to you.

But what makes the document really interesting is how incredibly personal it is. Newton rattles off a laundry list of sins he committed during his relatively short life – he was around 20 when he wrote this, still a student at Cambridge. He splits the list into two categories, before Whitsunday 1662 and after. (Whitsunday is, by the way, the Sunday of the feast of Whitsun, which is celebrated seven weeks after Easter.) Why he decided on that particular date to bifurcate his timeline isn’t immediately clear.

Some of the sins are rather opaque. I’m not sure what, for instance, “Making a feather while on Thy day” means exactly but it sure sounds like a long-lost euphemism. Other sins like “Peevishness with my mother” are immediately relatable as good old-fashioned teenage churlishness. You can see the full list below. And you can read the full document over at the Newton Project here.

Before Whitsunday 1662

1. Vsing the word (God) openly
2. Eating an apple at Thy house
3. Making a feather while on Thy day
4. Denying that I made it.
5. Making a mousetrap on Thy day
6. Contriving of the chimes on Thy day
7. Squirting water on Thy day
8. Making pies on Sunday night
9. Swimming in a kimnel on Thy day
10. Putting a pin in Iohn Keys hat on Thy day to pick him.
11. Carelessly hearing and committing many sermons
12. Refusing to go to the close at my mothers command.
13. Threatning my father and mother Smith to burne them and the house over them
14. Wishing death and hoping it to some
15. Striking many
16. Having uncleane thoughts words and actions and dreamese.
17. Stealing cherry cobs from Eduard Storer
18. Denying that I did so
19. Denying a crossbow to my mother and grandmother though I knew of it
20. Setting my heart on money learning pleasure more than Thee
21. A relapse
22. A relapse
23. A breaking again of my covenant renued in the Lords Supper.
24. Punching my sister
25. Robbing my mothers box of plums and sugar
26. Calling Dorothy Rose a jade
27. Glutiny in my sickness.
28. Peevishness with my mother.
29. With my sister.
30. Falling out with the servants
31. Divers commissions of alle my duties
32. Idle discourse on Thy day and at other times
33. Not turning nearer to Thee for my affections
34. Not living according to my belief
35. Not loving Thee for Thy self.
36. Not loving Thee for Thy goodness to us
37. Not desiring Thy ordinances
38. Not long {longing} for Thee in {illeg}
39. Fearing man above Thee
40. Vsing unlawful means to bring us out of distresses
41. Caring for worldly things more than God
42. Not craving a blessing from God on our honest endeavors.
43. Missing chapel.
44. Beating Arthur Storer.
45. Peevishness at Master Clarks for a piece of bread and butter.
46. Striving to cheat with a brass halfe crowne.
47. Twisting a cord on Sunday morning
48. Reading the history of the Christian champions on Sunday

Since Whitsunday 1662

49. Glutony
50. Glutony
51. Vsing Wilfords towel to spare my own
52. Negligence at the chapel.
53. Sermons at Saint Marys (4)
54. Lying about a louse
55. Denying my chamberfellow of the knowledge of him that took him for a sot.
56. Neglecting to pray 3
57. Helping Pettit to make his water watch at 12 of the clock on Saturday night

via JF Ptak Science Books/Public Domain Review

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Jonathan Crow is a writer and filmmaker whose work has appeared in Yahoo!, The Hollywood Reporter, and other publications.

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The Greatest Shot in Television: Science Historian James Burke Had One Chance to Nail This Scene … and Nailed It

in Science, Technology, Television | October 4th, 2024

The 80-second clip above captures a rocket launch, something of which we’ve all seen footage at one time or another. What makes its viewers call it “the greatest shot in television” still today, 45 years after it first aired, may take more than one viewing to notice. In it, science historian James Burke speaks about how “certain gases ignite, and that the thermos flask permits you to store vast quantities of those gases safely, in their frozen liquid form, until you want to ignite them.” Use a sufficiently large flask filled with hydrogen and oxygen, design it to mix the gases and set light to them, and “you get that” — that is, you get the rocket that launches behind Burke just as soon as he points to it.

One can only admire Burke’s composure in discussing such technical matters in a shot that had to be perfectly timed on the first and only take. What you wouldn’t know unless you saw it in context is that it also comes as the final, culminating moment of a 50-minute explanatory journey that begins with credit cards, then makes its way through the invention of everything from a knight’s armor to canned food to air conditioning to the Saturn V rocket, which put man on the moon.

Formally speaking, this was a typical episode of Connections, Burke’s 1978 television series that traces the most important and surprising moves in the evolution of science and technology throughout human history.

Though not as widely remembered as Carl Sagan’s slightly later Cosmos, Connections bears repeat viewing here in the twenty-first century, not least for the intellectual and visual bravado typified by this “greatest shot in television,” now viewed nearly 18 million times on Youtube. Watch it enough times yourself, and you’ll notice that it also pulls off some minor sleight of hand by having Burke walk from a non-time-sensitive shot into another with the already-framed rocket ready for liftoff. But that hardly lessens the feeling of achievement when the launch comes off. “Destination: the moon, or Moscow,” says Burke, “the planets, or Peking” — a closing line that sounded considerably more dated a few years ago than it does today.

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Based in Seoul, Colin Marshall writes and broadcasts on cities, language, and culture. His projects include the Substack newsletter Books on Cities and the book The Stateless City: a Walk through 21st-Century Los Angeles. Follow him on Twitter at @colinmarshall or on Facebook.

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Why You Can Never Tune a Piano

in Music, Science | September 11th, 2024

Grab a cup of coffee, put on your thinking cap, and start working through this video from Minute Physics, which explains why guitars, violins and other instruments can be tuned to a tee. But when it comes to pianos, it’s an entirely different story, a mathematical impossibility. Pianos are slightly but necessarily out of tune.

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Maurice Sendak’s First Published Illustrations: Discover His Drawings for a 1947 Popular Science Book

in Art, Science | August 30th, 2024

McGraw-Hill/public domain; copy from the Niels Bohr Library & Archives

Once upon a time, long before Maurice Sendak illustrated Where The Wild Things Are (1963), he published, notes Ars Technica, “his first professional illustrations in a 1947 popular science book about nuclear physics, Atomics for the Millions.” Only 18 years old, Sendak provided the illustrations; his physics teacher, Hyman Ruchlis authored the text, along with professor Maxwell Leigh Eidinoff.

According to science historian Ryan Dahn, “Sendak agreed to do the work for 1% of the royalties, of which he received an advance of $100, about $1600 today.” Not bad for a teenager creating his first credited work.

At Physics Today, you can read Dahn’s new article on Sendak’s early physics illustrations. You can also read/view all of Atomics for the Millions on the HathiTrust website.

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Is Andrew Huberman Ruining Your Morning Coffee Routine?

in Food & Drink, Science | August 28th, 2024

Andrew Huberman–the host of the influential Huberman Lab podcast–has gotten a lot of mileage out of his recommended morning routine. His routine emphasizes the importance of getting sunlight within 30–60 minutes of waking; also engaging in light physical activity; hydrating well; and avoiding coffee for the first 90–120 minutes. In his words:

I highly recommend that everybody delay their caffeine intake for 90 to 120 minutes after waking. However painful it may be to eventually arrive at that 90 to 120 minutes after waking, you want, and I encourage you, to clear out whatever residual adenosine is circulating in your system in that first 90 to 120 minutes of the day. Get that sunlight exposure, get some movement to wake up, and then, and only then, start to ingest caffeine because what you’ll do if you delay caffeine intake until 90 to 120 minutes after waking is you will avoid the so-called afternoon crash.

And if you drink caffeine at any point throughout the day, really try and avoid any caffeine, certainly avoid drinking more than a hundred milligrams of caffeine after 4:00 p.m and probably even better to limit your last caffeine intake to 3:00 p.m. or even 2:00 p.m.

For many, this isn’t exactly a welcome piece of advice. And you naturally wonder how the advice sits with James Hoffmann, author of The World Atlas of Coffee, who has developed a robust YouTube channel where he explores the ins and outs of making coffee. In the video above, Hoffmann explores the research supporting Huberman’s advice, all with the goal of determining whether Huberman is ruining (or improving) our early waking hours.

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Richard Feynman Creates a Simple Method for Telling Science From Pseudoscience (1966)

in Philosophy, Science | August 25th, 2024

Photo by Tamiko Thiel via Wikimedia Commons

How can we know whether a claim someone makes is scientific or not? The question is of the utmost consequence, as we are surrounded on all sides by claims that sound credible, that use the language of science—and often do so in attempts to refute scientific consensus. As we’ve seen in the case of the anti-vaccine crusade, falling victim to pseudoscientific arguments can have dire effects. So how can ordinary people, ordinary parents, and ordinary citizens evaluate such arguments?

The problem of demarcation, or what is and what is not science, has occupied philosophers for some time, and the most famous answer comes from philosopher of science Karl Popper, who proposed his theory of “falsifiability” in 1963. According to Popper, an idea is scientific if it can conceivably be proven wrong. Although Popper’s strict definition of science has had its uses over the years, it has also come in for its share of criticism, since so much accepted science was falsified in its day (Newton’s gravitational theory, Bohr’s theory of the atom), and so much current theoretical science cannot be falsified (string theory, for example). Whatever the case, the problem for lay people remains. If a scientific theory is beyond our comprehension, it’s unlikely we’ll be able to see how it might be disproven.

Physicist and science communicator Richard Feynman came up with another criterion, one that applies directly to the non-scientist likely to be bamboozled by fancy terminology that sounds scientific. Simon Oxenham at Big Think points to the example of Deepak Chopra, who is “infamous for making profound sounding yet entirely meaningless statements by abusing scientific language.” (What Daniel Dennett called “deepities.”) As a balm against such statements, Oxenham refers us to a speech Feynman gave in 1966 to a meeting of the National Science Teachers Association. Rather than asking lay people to confront scientific-sounding claims on their own terms, Feynman would have us translate them into ordinary language, thereby assuring that what the claim asserts is a logical concept, rather than just a collection of jargon.

The example Feynman gives comes from the most rudimentary source, a “first grade science textbook” which “begins in an unfortunate manner to teach science”: it shows its student a picture of a “windable toy dog,” then a picture of a real dog, then a motorbike. In each case the student is asked “What makes it move?” The answer, Feynman tells us “was in the teacher’s edition of the book… ‘energy makes it move.’” Few students would have intuited such an abstract concept, unless they had previously learned the word, which is all the lesson teaches them. The answer, Feynman points out, might as well have been “’God makes it move,’ or ‘Spirit makes it move,’ or, ‘Movability makes it move.’”

Instead, a good science lesson “should think about what an ordinary human being would answer.” Engaging with the concept of energy in ordinary language enables the student to explain it, and this, Feynman says, constitutes a test for “whether you have taught an idea or you have only taught a definition. Test it this way”:

Without using the new word which you have just learned, try to rephrase what you have just learned in your own language. Without using the word “energy,” tell me what you know now about the dog’s motion.

Feynman’s insistence on ordinary language recalls the statement attributed to Einstein about not really understanding something unless you can explain it to your grandmother. The method, Feynman says, guards against learning “a mystic formula for answering questions,” and Oxenham describes it as “a valuable way of testing ourselves on whether we have really learned something, or whether we just think we have learned something.”

It is equally useful for testing the claims of others. If someone cannot explain something in plain English, then we should question whether they really do themselves understand what they profess…. In the words of Feynman, “It is possible to follow form and call it science, but that is pseudoscience.”

Does Feynman’s ordinary language test solve the demarcation problem? No, but if we use it as a guide when confronted with plausible-sounding claims couched in scientific-sounding verbiage, it can help us either get clarity or suss out total nonsense. And if anyone would know how scientists can explain complicated ideas in plainly accessible ways, Feynman would.

Note: An earlier version of this post appeared on our site in 2016.

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Josh Jones is a writer and musician based in Durham, NC. Follow him at @jdmagness

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Buckminster Fuller Tells the World “Everything He Knows” in a 42-Hour Lecture Series (1975)

in Architecture, Design, Science, Technology | July 23rd, 2024

History seems to have settled Buckminster Fuller’s reputation as a man ahead of his time. He inspires short, witty popular videos like YouTuber Joe Scott’s “The Man Who Saw The Future,” and the ongoing legacy of the Buckminster Fuller Institute (BFI), who note that “Fuller’s ideas and work continue to influence new generations of designers, architects, scientists and artists working to create a sustainable planet.”

Brilliant futurist though he was, Fuller might also be called the man who saw the present and the past—as much as a single individual could seemingly hold in their mind at once. He was “a man who is intensely interested in almost everything,” wrote Calvin Tomkins at The New Yorker in 1965, the year of Fuller’s 70th birthday. Fuller was as eager to pass on as much knowledge as he could collect in his long, productive career, spanning his early epiphanies in the 1920s to his final public talks in the early 80s.

“The somewhat overwhelming effect of a Fuller monologue,” wrote Tomkins, “is well known today in many parts of the world.” His lectures leapt from subject to subject, incorporating ancient and modern history, mathematics, linguistics, architecture, archaeology, philosophy, religion, and—in the example Tomkins gives—“irrefutable data on tides, prevailing winds,” and “boat design.” His discourses issue forth in wave after wave of information.

Fuller could talk at length and with authority about virtually anything—especially about himself and his own work, in his own special jargon of “unique Bucky-isms: special phrases, terminology, unusual sentence structures, etc.,” writes BFI. He may not always have been particularly humble, yet he spoke and wrote with a lack of prejudice and an open curiosity and that is the opposite of arrogance. Such is the impression we get of Fuller in the series of talks he recorded ten years after Tomkin’s New Yorker portrait.

Made in January of 1975, Buckminster Fuller: Everything I Know captured Fuller’s “entire life’s work” in 42 hours of “thinking out loud lectures [that examine] in depth all of Fuller’s major inventions and discoveries from the 1927 Dymaxion car, house, car and bathroom, through the Wichita House, geodesic domes, and tensegrity structures, as well as the contents of Synergetics. Autobiographical in parts, Fuller recounts his own personal history in the context of the history of science and industrialization.”

He begins, however, in his first lecture at the top, not with himself, but with his primary subject of concern: “all humanity,” a species that begins always in nakedness and ignorance and manages to figure it out “entirely by trial and error,” he says. Fuller marvels at the advances of “early Hindu and Chinese” civilizations—as he had at the Maori in Tomkin’s anecdote, who “had been among the first peoples to discover the principles of celestial navigation” and “found a way of sailing around the world… at least ten thousand years ago.”

The leap from ancient civilizations to “what is called World War I” is “just a little jump in information,” he says in his first lecture, but when Fuller comes to his own lifetime, he shows how many “little jumps” one human being could witness in a lifetime in the 20th century. “The year I was born Marconi invented the wireless,” says Fuller. “When I was 14 man did get to the North Pole, and when I was 16 he got to the South Pole.”

When Fuller was 7, “the Wright brothers suddenly flew,” he says, “and my memory is vivid enough of seven to remember that for about a year the engineering societies were trying to prove it was a hoax because it was absolutely impossible for man to do that.” What it showed young Bucky Fuller was that “impossibles are happening.” If Fuller was a visionary, he redefined the word—as a term for those with an expansive, infinitely curious vision of a possible world that already exists all around us.

See Fuller’s complete lecture series, Everything I Know, at the Internet Archive, and read edited transcripts of his talks at the Buckminster Fuller Institute.

Everything I Know will be added to our collection, 1,700 Free Online Courses from Top Universities.

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Josh Jones is a writer and musician based in Durham, NC. Follow him at @jdmagness

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