Sci-Fi Writer Arthur C. Clarke Predicts the Future in 1964: Artificial Intelligence, Instantaneous Global Communication, Remote Work, Singularity & More

in Science, Technology | April 13th, 2026

Are you feeling confident about the future? No? We understand. Would you like to know what it was like to feel a deep certainty that the decades to come were going to be filled with wonder and the fantastic? Well then, gaze upon this clip from the BBC Archive YouTube channel of sci-fi author Arthur C. Clarke predicting the future in 1964.

Although we best know him for writing 2001: A Space Odyssey, the 1964 television-viewing public would have known him for his futurism and his talent for calmly explaining all the great things to come. In the late 1940s, he had already predicted telecommunication satellites. In 1962 he published his collected essays, Profiles of the Future, which contains many of the ideas in this clip.

Here he correctly predicts the ease with which we can be contacted wherever in the world we choose to, where we can contact our friends “anywhere on earth even if we don’t know their location.” What Clarke doesn’t predict here is how “location” isn’t a thing when we’re on the internet. He imagines people working just as well from Tahiti or Bali as they do from London. Clarke sees this advancement as the downfall of the modern city, as we do not need to commute into the city to work. Now, as so many of us are doing our jobs from home post-COVID, we’ve also discovered the dystopia in that fantasy. (It certainly hasn’t dropped the cost of rent.)

Next, he predicts advances in biotechnology that would allow us to, say, train monkeys to work as servants and workers. (Until, he jokes, they form a union and “we’d be back right where we started.) Perhaps, he says, humans have stopped evolving—what comes next is artificial intelligence (although that phrase had yet to be used) and machine evolution, where we’d be honored to be the “stepping stone” towards that destiny. Make of that what you will. I know you might think it would be cool to have a monkey butler, but c’mon, think of the ethics, not to mention the cost of bananas.

Pointing out where Clarke gets it wrong is too easy—nobody gets it right all of the time. However, it is fascinating that some things that have never come to pass—being able to learn a language overnight, or erasing your memories—have managed to resurface over the years as science fiction films, like Eternal Sunshine of the Spotless Mind. His ideas of cryogenic suspension are staples of numerous hard sci-fi films.

And we are still waiting for the “Replicator” machine, which would make exact duplicates of objects (and by so doing cause a collapse into “gluttonous barbarism” because we’d want unlimited amounts of everything.) Some commenters call this a precursor to 3‑D printing. I’d say otherwise, but something very close to it might be around the corner. Who knows? Clarke himself agrees about all this conjecture—it’s doomed to fail.

“That is why the future is so endlessly fascinating. Try as we can, we’ll never outguess it.”

Note: An earlier version of this post appeared on our site in 2022.

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Ted Mills is a freelance writer on the arts.

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What You Would See and Feel While Traveling Near the Speed of Light

in Astronomy, Physics, Science | April 10th, 2026

We all learn in school, or at least from our more rigorous choices of science fiction, that we’ll never be able to travel faster than the speed of light. At first, this may sound disappointing, but upon reflection, 186,000 miles per second is nothing to sneeze at. Questions about how to achieve that speed soon give way to questions about what an attempt to do so would be like, many of them answered by the animated video from ScienceClic above. The first surprise is that moving so fast, in and of itself, would have no negative effect on us. When we travel by bicycle, car, airplane, spacecraft, or what have you, we feel only the acceleration. If that remains at a safe rate, no absolute speed will be a problem, in theory, assuming you can get up to it. Still, it couldn’t hurt to buckle up, not that it would help much in the event of a collision, even with a speck of dust.

Putting that out of our minds by assuming that “our ship is equipped with a force field that repels dangerous objects and allows us to roam freely through space,” we can concentrate on what we’d see through the window. First, “the stars in front of us, which we get closer to, seem to gradually move away. The sky contracts before us,” much as rain appears to fall from the front when you’re driving through it.

“Behind us, the sky seems to widen, and becomes darker,” and any object we pass “would appear to be slightly angled in our direction.” Just as the light in the sky we see while stargazing takes some time to reach us, thus constituting a view of the stars as they were in the past, events on the Earth from which we’re moving away — presuming we had a way to see them — would appear to be taking place in “slow motion.” Earth’s image would shift toward the color red, and that of everything in front of us would shift toward blue. After a few hundred days, our ship begins to approach light speed, and that’s when things get even stranger.

This, scientifically speaking, is when special relativity comes into play, causing our ship to swerve onto its own “time axis” apart from the one followed by Earth. From our perspective, the entire universe would contract along our length of motion, making our journey shorter than we’d expected. As we move faster and faster, the view in front of us intensifies, while the view behind us turns completely black. And what would happen when we finally reach light speed? Nothing, because we can’t reach it: “You may try to catch a light ray, but from your point of view, it will always escape at the same speed.” Accelerate all you like; “from your point of view, you are still motionless, and light escapes inexorably.” At best, “our ship will continue to accelerate forever, and our field of vision will shrink ever more, until forming an infinitely bright spot in front of us, surrounded by an infinitely black sky.” But there may be a loophole, in that, even if an object can’t do it, “nothing prohibits space itself from moving faster than light” — a premise for some truly mind-blowing sci-fi if ever there was one.

via Aeon

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Based in Seoul, Colin Marshall writes and broadcasts on cities, language, and culture. He’s the author of the newsletter Books on Cities as well as the books 한국 요약 금지 (No Summarizing Korea) and Korean Newtro. Follow him on the social network formerly known as Twitter at @colinmarshall.

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In Her Final Reflections, Jane Goodall Issues a Warning: “Without Hope, We Fall Into Apathy”

in Life, Science | March 18th, 2026

For many of us, Jane Goodall was one of those cultural figures who seemed always to have been around, and on some level, made us feel like she always would be. But of course, no human being lives forever, no matter how widely admired. Goodall made her own departure last fall, in the middle of an American speaking tour, at the age of 91. Just two days thereafter, she appeared as the guest on the premiere of Netflix’s Famous Last Words, a program consisting of interviews conducted expressly to air only after the interviewee’s death. In the clip above, the show’s host, TV writer-director-producer Brad Falchuk, asks her an outwardly simple question: “Who would you say you were?”

Goodall describes herself as “somebody sent to this world to try to give people hope in dark times, because without hope, we fall into apathy and do nothing, and in the dark times that we are living in now, if people don’t have hope, we’re doomed. How can we bring little children into this dark world we’ve created and let them be surrounded by people who’ve given up? So even if this is the end of humanity as we know it, let’s fight to the very end. Let’s let the children know that there is hope, if they get together. And even if it becomes impossible for anybody, it’s better to go on fighting to the end than just to give up and say, ‘Okay.’ ” These are fine words, though it may surprise some of us that they make no mention of chimps.

Though she became famous as a primatologist, and specifically as an expert on chimpanzees, Goodall devoted much energy in her later decades to taking action on broader causes. These included environmental conservation and the security of life on Earth itself, which she saw as imperiled by the actions of certain governments and political actors. When Falchuk asks who she doesn’t like, she expresses her desire to send permanently into space Elon Musk, Donald Trump and “some of his real supporters,” Vladimir Putin, Xi Jinping, Benjamin Netanyahu and “his far-right government.” That answer may get us wondering whether the resulting power vacuums would be filled by more or less savory characters. The entire interview will leave us with another, perhaps more troubling question: who, today, could be suited to assume the place in public life left behind by Jane Goodall?

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Based in Seoul, Colin Marshall writes and broadcasts on cities, language, and culture. He’s the author of the newsletter Books on Cities as well as the books 한국 요약 금지 (No Summarizing Korea) and Korean Newtro. Follow him on the social network formerly known as Twitter at @colinmarshall.

by Colin Marshall | Permalink | Make a Comment ( None ) |

Buckminster Fuller’s Dymaxion Sleep Plan: He Slept Two Hours a Day for Two Years & Felt “Vigorous” and “Alert”

in Biology, Life, Science | January 13th, 2026

One potential drawback of genius, it seems, is restlessness, a mind perpetually on the move. Of course, this is what makes many celebrated thinkers and artists so productive. That and the extra hours some gain by sacrificing sleep. Voltaire reportedly drank up to 50 cups of coffee a day, and seems to have suffered no particularly ill effects. Balzac did the same, and died at 51. The caffeine may have had something to do with it. Both Socrates and Samuel Johnson believed that sleep is wasted time, and “so for years has thought grey-haired Richard Buckminster Fuller,” wrote Time magazine in 1943, “futurific inventor of the Dymaxion house, the Dymaxion car and the Dymaxion globe.”

Engineer and visionary Fuller intended his “Dymaxion” brand to revolutionize every aspect of human life, or—in the now-slightly-dated parlance of our obsession with all things hacking—he engineered a series of radical “lifehacks.” Given his views on sleep, that seemingly essential activity also received a Dymaxion upgrade, the trademarked name combining “dynamic,” “maximum,” and “tension.” “Two hours of sleep a day,” Fuller announced, “is plenty.” Did he consult with specialists? Medical doctors? Biologists? Nothing as dull as that. He did what many a mad scientist does in the movies. (In the search, as Vincent Price says at the end of The Fly, “for the truth.”) He cooked up a theory, and tested it on himself.

“Fuller,” Time reported, “reasoned that man has a primary store of energy, quickly replenished, and a secondary reserve (second wind) that takes longer to restore.” He hypothesized that we would need less sleep if we stopped to take a nap at “the first sign of fatigue.” Fuller trained himself to do just that, forgoing the typical eight hours, more or less, most of us get per night. He found—as have many artists and researchers over the years—that “after a half-hour nap he was completely refreshed.” Naps every six hours allowed him to shrink his total sleep per 24-hour period to two hours. Did he, like the 50s mad scientist, become a tragic victim of his own experiment?

No danger of merging him with a fly or turning him invisible. The experiment’s failure may have meant a day in bed catching up on lost sleep. Instead, Fuller kept it up for two full years, 1932 and 1933, and reported feeling in “the most vigorous and alert condition that I have ever enjoyed.” He might have slept two hours a day in 30 minute increments indefinitely, Time suggests, but found that his “business associates… insisted on sleeping like other men,” and wouldn’t adapt to his eccentric schedule, though some not for lack of trying. In his book BuckyWorks J. Baldwin claims, “I can personally attest that many of his younger colleagues and students could not keep up with him. He never seemed to tire.”

A research organization looked into the sleep system and “noted that not everyone was able to train themselves to sleep on command.” The point may seem obvious to the significant number of people who suffer from insomnia. “Bucky disconcerted observers,” Baldwin writes, “by going to sleep in thirty seconds, as if he had thrown an Off switch in his head. It happened so quickly that it looked like he had had a seizure.” Buckminster Fuller was undoubtedly an unusual human, but human all the same. Time reported that “most sleep investigators agree that the first hours of sleep are the soundest.” A Colgate University researcher at the time discovered that “people awakened after four hours’ sleep were just as alert, well-coordinated physically and resistant to fatigue” as those who slept the full eight.

Sleep research since the forties has made a number of other findings about variable sleep schedules among humans, studying shift workers’ sleep and the so-called “biphasic” pattern common in cultures with very late bedtimes and siestas in the middle of the day. The success of this sleep rhythm “contradicts the normal idea of a monophasic sleeping schedule,” writes Evan Murray at MIT’s Culture Shock, “in which all our time asleep is lumped into one block.” Biphasic sleep results in six or seven hours of sleep rather than the seven to nine of monophasic sleepers. Polyphasic sleeping, however, the kind pioneered by Fuller, seems to genuinely result in even less needed sleep for many. It’s an idea that’s only become widespread “within roughly the last decade,” Murray noted in 2009. He points to the rediscovery, without any clear indebtedness, of Fuller’s Dymaxion system by college student Maria Staver, who named her method “Uberman,” in honor of Nietzsche, and spread its popularity through a blog and a book.

Murray also reports on another blogger, Steve Pavlina, who conducted the experiment on himself and found that “over a period of 5 1/2 months, he was successful in adapting completely,” reaping the benefits of increased productivity. But like Fuller, Pavlina gave it up, not for “health reasons,” but because, he wrote, “the rest of the world is monophasic” or close to it. Our long block of sleep apparently contains a good deal of “wasted transition time” before we arrive at the necessary REM state. Polyphasic sleep trains our brains to get to REM more quickly and efficiently. For this reason, writes Murray, “I believe it can work for everyone.” Perhaps it can, provided they are willing to bear the social cost of being out of sync with the rest of the world. But people likely to practice Dymaxion Sleep for several months or years probably already are.

Note: An earlier version of this post appeared on our site in 2017.

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Josh Jones is a writer and musician based in Durham, NC.

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300,000 Wondrous Nature Illustrations Put Online by The Biodiversity Heritage Library

in Art, Nature, Photography, Science | January 6th, 2026

Are we truly in the midst of a human-caused sixth mass extinction, an era of “biological annihilation”? Many scientists and popular science writers say yes, using terms like “Holocene” or “Anthropocene” to describe what follows the Ordovician, Devonian, Permian, Triassic, and Cretaceous periods. Peter Brannen, the author of extinction history The Ends of the Earth has found at least one scientist who thinks the concept is “junk.” But Brannen quotes some alarming statistics. Chilling, even. “Until very recently,” he writes, “all vertebrate life on the planet was wildlife. But astoundingly, today wildlife accounts for only 3 percent of Earth’s land animals; human beings, our livestock, and our pets take up the remaining 97 percent of the biomass… almost half of the Earth’s land has been converted into farmland.”

This state of affairs does not bode well for the millions of remaining species getting edged out of their environments by agribusiness and climate change. We learn from extinctions past that the planet rebounds after unimaginable catastrophe. Life really does go on, though it may take millions of years to recover. But the current forms of life may disappear before their time. If we want to understand what is at stake besides our own fragile fossil-fuel-based civilizations, we need to connect to life emotionally as well as intellectually. Short of globe-hopping physical immersion in the Earth’s biodiversity, we could hardly do better than immersing ourselves in the tradition of naturalist writing, art, and photography that brings the world to us.

The Biodiversity Heritage Library (BHL), an “open access digital library for biodiversity literature and archives,” has for many years been making it easy for people to connect to nature through nature writing and illustration. On Flickr, you can find 319,000 carefully curated images. The collection itself is subdivided into different photo albums drawn from historical publications. For example, The Freshwater Fishes of the British Isles (1911), The Bird (1869), and The Insect Book (1901).

This image archive offers expansive views of humanity’s encounter with the natural world, not only through statistics and academic jargon, but through the artistic recording of wonder, scientific curiosity, and deep appreciation. Enter the archive here.

Note: An earlier version of this post appeared on our site in 2017.

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Josh Jones is a writer and musician based in Durham, NC.

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Why Coffee Makes You Go #2

in Food & Drink, Science | December 17th, 2025

James Hoffmann, the author of The World Atlas of Coffee and the creator of a coffee-centric YouTube channel, can tell you many things about coffee—from how to roast coffee, to the tools and techniques needed to make espresso, to the ultimate French Press technique. Then he can also get into more tangentially related questions, like why coffee makes you drop the proverbial deuce. Above, Mr. Hoffmann takes you on a short scientific journey through the human body, exploring the effects of coffee on digestion, gut bacteria, and our nervous system. We’ll provide no spoilers or gory details here.

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by OC | Permalink | Make a Comment ( None ) |

“The Matilda Effect”: How Pioneering Women Scientists Have Been Written Out of Science History

in Gender, History, Science | December 8th, 2025

Photo via Wikimedia Commons

The history of science, like most every history we learn, comes to us as a procession of great, almost exclusively white, men, unbroken but for the occasional token woman—well-deserving of her honors but seemingly anomalous nonetheless. “If you believe the history books,” notes the Timeline series The Matilda Effect, “science is a guy thing. Discoveries are made by men, which spur further innovation by men, followed by acclaim and prizes for men. But too often, there is an unsung woman genius who deserves just as much credit” and who has been overshadowed by male colleagues who grabbed the glory.

In 1993, Cornell University historian of science Margaret Rossiter dubbed the denial of recognition to women scientists “the Matilda effect,” for suffragist and abolitionist Matilda Joslyn Gage, whose 1893 essay “Woman as an Inventor” protested the common assertion that “woman… possesses no inventive or mechanical genius.” Such assertions, Gage proceeded to demonstrate, “are carelessly or ignorantly made… although woman’s scientific education has been grossly neglected, yet some of the most important inventions of the world are due to her.”

Over 100 years later, Rossiter’s tenacious work in unearthing the contributions of U.S. women scientists inspired the History of Science Society to name a prestigious prize after her. The Timeline series profiles a few of the women whom it describes as prime examples of the Matilda effect, including Dr. Lise Meitner, the Austrian-born physicist and pioneer of nuclear technology who escaped the Nazis and became known in her time as “the Jewish Mother of the Bomb,” though she had nothing to do with the atomic bomb. Instead, “Meitner led the research that ultimately discovered nuclear fission.” But Meitner would become “little more than a footnote in the history of Nazi scientists and the birth of the Atomic age.”

Instead, Meitner’s colleague Otto Hahn received the accolades, a Nobel Prize in Chemistry and “renown as the discoverer of nuclear fission. Meitner, who directed Hahn’s most significant experiments and calculated the energy release resulting from fission, received a few essentialist headlines followed by decades of obscurity.” (See Meitner and Hahn in the photo above.) Likewise, the name of Alice Augusta Ball has been “all but scrubbed from the history of medicine,” though it was Ball, an African American chemist from Seattle, Washington, who pioneered what became known as the Dean Method, a revolutionary treatment for leprosy.

Ball conducted her research at the University of Hawaii, but she tragically died at the age of 24, in what was likely a lab accident, before the results could be published. Instead, University President Dr. Arthur Dean, who had co-taught chemistry classes with Ball, continued her work. But he failed “to mention Ball’s key contribution” despite protestations from Dr. Harry Hollmann, a surgeon who worked with Ball on treating leprosy patients. Dean claimed credit and published their work under his name. Decades later, “the scant archival trail of Alice Ball was rediscovered…. In 2000, a plaque was installed at the University of Hawaii commemorating Ball’s accomplishments.”

Other women in the Matilda effect series include bacterial geneticist Esther Lederberg, who made amazing discoveries in genetics that won her husband a Nobel Prize; Irish astrophysicist Jocelyn Bell Burnell, who discovered the first radio pulsars in 1967, but was excluded from the Nobel awarded to her thesis supervisor Antony Hewish and astronomer Martin Ryle. A similar fate befell Dr. Rosalind Franklin, the chemist excluded from the Nobel awarded to her colleagues James Watson, Francis Crick, and Maurice Wilkins for the discovery of DNA.

These prominent examples are but the tip of the iceberg when it comes to women who made significant contributions to scientific history and were rewarded by being written out of it and denied awards and recognition in their lifetime. For more on the history of U.S. women in science and the social forces that worked to exclude them, see Margaret Rossiter’s three-volume Women Scientists in America series: Struggles and Strategies to 1940, Before Affirmative Action, 1940–1972, and Forging a New World since 1972. And read Timeline’s Matilda Effect series of articles here.

Note: An earlier version of this post appeared on our site in 2018.

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Josh Jones is a writer and musician based in Durham, NC.

by OC | Permalink | Make a Comment ( 2 ) |

Nikola Tesla Accurately Predicted the Rise of Wireless Technology & the Smartphone in 1926

in Science, Technology | November 3rd, 2025

Certain cult historical figures have served as prescient avatars for the techno-visionaries of the digital age. Where the altruistic utopian designs of Buckminster Fuller provided an ideal for the first wave of Silicon Valley pioneers (a group including computer scientist and philosopher Jaron Lanier and Wired editor Kevin Kelly), later entrepreneurs have hewn closer to the principles of brilliant scientist and inventor Nikola Tesla, who believed, as he told Liberty magazine in 1935, that “we suffer the derangement of our civilization because we have not yet completely adjusted ourselves to the machine age.”

Such an adjustment would come, Tesla believed, only in “mastering the machine”—and he seemed to have supreme confidence in human mastery—over food production, climate, and genetics. We would be freed from onerous labor by automation and the creation of “a thinking machine,” he said, over a decade before the invention of the computer. Tesla did not anticipate the ways such machines would come to master us, even though he cannily foresaw the future of wireless technology, computing, and telephony, technologies that would radically reshape every aspect of human life.

In an earlier, 1926, interview in Collier’s magazine, Tesla predicted, as the editors wrote, communicating “instantly by simple vest-pocket equipment.” His actual words conveyed a much grander, and more accurate, picture of the future.

When wireless is perfectly applied the whole earth will be converted into a huge brain, which in fact it is…. We shall be able to communicate with one another instantly, irrespective of distance. Not only this, but through television and telephony we shall see and hear one another as perfectly as though we were face to face, despite intervening distances of thousands of miles; and the instruments through which we shall be able to do this will be amazingly simple compared with our present telephone. A man will be able to carry one in his vest pocket.

The complexity of smartphones far outstrips that of the telephone, but in every other respect, Tesla’s picture maps onto the reality of almost 100 years later. Other aspects of Tesla’s future scenario for wireless also seem to anticipate current technologies, like 3D printing, though the kind he describes still remains in the realm of science fiction: “Wireless will achieve the closer contact through transmission of intelligence, transport of our bodies and materials and conveyance of energy.”

But Tesla’s vision had its limitations, and they lay precisely in his techno-optimism. He never met a problem that wouldn’t eventually have a technological solution (and like many other techno-visionaries of the time, he heartily endorsed state-sponsored eugenics). “The majority of the ills from which humanity suffers,” he said, “are due to the immense extent of the terrestrial globe and the inability of individuals and nations to come into close contact.”

Wireless technology, thought Tesla, would help eradicate war, poverty, disease, pollution, and general discontent, when we are “able to witness and hear events—the inauguration of a President, the playing of a world series game, the havoc of an earthquake or the terror of a battle—just as though we were present.” When international boundaries are “largely obliterated” by instant communication, he believed, “a great step will be made toward the unification and harmonious existence of the various races inhabiting the globe.”

Tesla did not, and perhaps could not, foresee the ways in which technologies that bring us closer together than ever also, and at the same time, pull us ever further apart. Read Tesla’s full interview here, in which he also predicts that women will become the “superior sex,” not by virtue of “the shallow physical imitation of men” but through “the awakening of the intellect.”

Note: An earlier version of this post appeared on our site in 2019.

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Josh Jones is a writer and musician based in Durham, NC.

by OC | Permalink | Make a Comment ( None ) |

Sci-Fi Writer Arthur C. Clarke Predicts the Future in 1964: Artificial Intelligence, Instantaneous Global Communication, Remote Work, Singularity & More

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“The Matilda Effect”: How Pioneering Women Scientists Have Been Written Out of Science History

Nikola Tesla Accurately Predicted the Rise of Wireless Technology & the Smartphone in 1926

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