time dilation

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pages: 330 words: 99,226

Extraterrestrial Civilizations by Isaac Asimov

Albert Einstein, Cepheid variable, Columbine, Eddington experiment, Edward Charles Pickering, Future Shock, Harvard Computers: women astronomers, invention of radio, invention of the telescope, invention of writing, Isaac Newton, Johannes Kepler, Louis Pasteur, Magellanic Cloud, Search for Extraterrestrial Intelligence, time dilation

Looked at in the light of the Universe as it appears to us today, there seems no reasonable hope that the speed-of-light limit will be defeated in any practical way. We must see what can be done at speeds below that of light. TIME DILATATION One peculiar phenomenon predicted by Einstein’s equations (and verified by studies of speeding subatomic particles) is that the rate at which time seems to progress slows with speed. This is called time dilatation. On a rapidly moving spaceship everything would go more slowly; atomic motions, clocks, the metabolism of human tissue. Because everything on a ship slows down with exact synchronism, people on board such a ship would not be subjectively aware of the change.

If we could watch them from Earth, we would see that it actually took a little over ten years for the ship to cover the distance, but to the time-slowed sense of the people on board, those ten years would seem only a week long. By making use of time dilatation, then, a space vessel would cover enormous distances in times that would seem comparatively short to the people on board. In a length of time that they would experience as 60 years, they would reach the Andromeda Galaxy, which is 2,300,000 light-years away from us.* Does time dilatation solve the problem? Perhaps not, for there are difficulties. First, to maintain a 1-g acceleration for an extended period of time (or a 1-g deceleration, for that matter) takes enormous quantities of energy, as I indicated earlier.

Some scientists suspect that this interference by interstellar matter will itself be sufficient to keep space vessels from ever reaching speeds of over 1/10 that of light—and at that speed the time- dilatation effect is very minor. Even if all difficulties are overcome, there remains another problem that lies at the very core of relativity. The slowed time sense affects only the astronauts, not the people back on the home planet. Making use of 1-g acceleration and deceleration, and time dilatation, to the full, a trip to the star Deneb and back will take astronauts 20 years (even allowing one year in the Deneb system for exploratory purposes).


pages: 330 words: 88,445

The Rise of Superman: Decoding the Science of Ultimate Human Performance by Steven Kotler

Abraham Maslow, adjacent possible, Albert Einstein, Any sufficiently advanced technology is indistinguishable from magic, Clayton Christensen, data acquisition, delayed gratification, deliberate practice, do what you love, escalation ladder, fear of failure, Google Earth, haute couture, impulse control, Isaac Newton, Jeff Bezos, Jeff Hawkins, jimmy wales, Kevin Kelly, Lao Tzu, lateral thinking, life extension, lifelogging, low earth orbit, Maui Hawaii, pattern recognition, Ray Kurzweil, risk tolerance, rolodex, selective serotonin reuptake inhibitor (SSRI), Sheryl Sandberg, Silicon Valley, SimCity, SpaceShipOne, Stanford marshmallow experiment, Steve Jobs, TED Talk, time dilation, Virgin Galactic, Walter Mischel, X Prize

Since he didn’t want to go stumbling off another cliff, the first thing he needed to do was revive his senses. A few drops of vinegar on his tongue should do the trick, and on and on until, as he later recounted: “I heard a dull thud and my fall was over.” Heim survived the impact, but the mystery never left him. Panoramic vision? Time dilation? Heavenly music? None of this made any sense. He was a scientist by training, a geologist who would go on to do fundamental work on the structure of the Alps and become a member of the Oxford Royal Society, yet his experience seemed beyond the bounds of the rational. Not knowing what else to do, Heim conducted a survey of thirty-two others who had all survived near-fatal falls.

You are and it is and that’s why we continually seek it out, and always search for it, and need it. We need it to feel alive and to feel complete and to bring it all into perspective—it just makes everything else fall in line, fall in place. It makes everything else tolerable.” In his words, we hear plenty of familiar echoes. Just like Heim, Hamilton experienced time dilation. Just like Danny Way, he vanished into the moment. The same intrinsic motivation that fascinated Maslow shows up, as does Csikszentmihalyi’s meaning-of-life ramifications. So while flow might be different from both traditional and altered states of consciousness, the stability of these component parts allows us to zero in on the phenomena.

“I had time to hear the advice my friends were shouting down at me, to think about it, to turn my parachute, to hear more advice, to see the orange rope, to realize what it was, to grab for it, try to hang on, not be able to hold it, hear my friends shouting more instructions, try again. It was a lot to do and a long, complicated conversation. But it was all happening so slowly, I could process all that information and make the right decisions.” The technical name for Potter’s experience is “time dilation.” Normally, in the zone, after self-awareness starts to fade, temporal awareness tends to follow. In Flow, Csikszentmihalyi explains further: “One of the most common descriptions of optimal experience is that time no longer seems to pass the way it ordinarily does. The objective, external duration we measure with reference to outside events like night and day, or the orderly progression of clocks, is rendered irrelevant by the rhythms dictated by the activity.… [I]n general, most people report that time seems to pass much faster.


pages: 283 words: 85,906

The Clock Mirage: Our Myth of Measured Time by Joseph Mazur

Albert Einstein, Alfred Russel Wallace, Arthur Eddington, computer age, Credit Default Swap, Danny Hillis, Drosophila, Eratosthenes, Henri Poincaré, Intergovernmental Panel on Climate Change (IPCC), invention of movable type, Isaac Newton, Jeff Bezos, job automation, Lewis Mumford, Mark Zuckerberg, mass immigration, Pepto Bismol, quantum entanglement, self-driving car, seminal paper, Stephen Hawking, time dilation, twin studies

If lengths of telomeres are statistically suggestive of marginal measures of age, Scott was actually getting younger the more he stayed in space! This time dilation seems to defy common sense. While in constant relative motion, each twin appears younger to the other. But Scott ends up younger because the symmetry is broken when he accelerates to change reference frames for the return journey. But in physics the phenomenon is not at all a paradox. Each twin sees the other’s time dilate, so each appears younger to the other. It is hard to fathom that time is not absolute—not simply because the physicists have made a definition linking space and time through speed and/or gravitation but more because it seems to imply a profound contradiction to what we understand as the biological aging process.

The external world may be made from material known only by our senses giving the illusion of color, smell, feeling, and motion.” My guess is that he would maintain that time is also an illusion. The twentieth century brought us relativity and quantum mechanics. Space and time were no longer thought of as separate aspects of reality; they were united into a single four-dimensional continuum. Time dilation, inconstancy of mass, and special relativity suggest that motion is indeed illusory. Quantum theory suggests that some motion is not continuous and therefore that time is not continuous. Electrons are strictly confined to moving between discrete energy levels around an atom’s nucleus. It’s hard to imagine them discretely jumping around, for it disrespects our sense of continuous time.

He believed that, somehow, we can measure that mathematical time through observations of motion, as if the mysterious driver could never be known but its consequences could be measured. We still use the word time in the singular when thinking about Newton’s baffling mover, even though we now know that it is not absolute and that its measurement submits to the phenomenon of time dilations that depend on relative speeds. We know that the world turns in a measure of time and that all events and motions of the universe are orchestrated by time. Anything that changes does so by definition of time and, in particular, by a measurable duration. Duration is tricky though. For Newton, it had one advantageous property: independence from the observer.


pages: 492 words: 149,259

Big Bang by Simon Singh

Albert Einstein, Albert Michelson, All science is either physics or stamp collecting, Andrew Wiles, anthropic principle, Arthur Eddington, Astronomia nova, Bletchley Park, Boeing 747, Brownian motion, carbon-based life, Cepheid variable, Chance favours the prepared mind, Charles Babbage, Commentariolus, Copley Medal, cosmic abundance, cosmic microwave background, cosmological constant, cosmological principle, dark matter, Dava Sobel, Defenestration of Prague, discovery of penicillin, Dmitri Mendeleev, Eddington experiment, Edmond Halley, Edward Charles Pickering, Eratosthenes, Ernest Rutherford, Erwin Freundlich, Fellow of the Royal Society, Ford Model T, fudge factor, Hans Lippershey, Harlow Shapley and Heber Curtis, Harvard Computers: women astronomers, heat death of the universe, Henri Poincaré, horn antenna, if you see hoof prints, think horses—not zebras, Index librorum prohibitorum, information security, invention of the telescope, Isaac Newton, Johannes Kepler, John von Neumann, Karl Jansky, Kickstarter, Louis Daguerre, Louis Pasteur, luminiferous ether, Magellanic Cloud, Murray Gell-Mann, music of the spheres, Olbers’ paradox, On the Revolutions of the Heavenly Spheres, Paul Erdős, retrograde motion, Richard Feynman, scientific mainstream, Simon Singh, Stephen Hawking, Strategic Defense Initiative, the scientific method, Thomas Kuhn: the structure of scientific revolutions, time dilation, unbiased observer, Wilhelm Olbers, William of Occam

Einstein’s mathematical formula described exactly how any observer would genuinely perceive time to slow down when looking at a moving clock, a phenomenon known as time dilation. This seems so utterly perverse that it raises four immediate questions: 1. Why don’t we ever notice this peculiar effect? The extent of the time dilation depends on the speed of the clock or object in question compared with the speed of light. In the above example the time dilation is significant because Alice’s carriage is travelling at 80% of the speed of light, which is 240,000,000 m/s. However, if the carriage were travelling at a more reasonable speed of 100 m/s (360km/h), then Bob’s perception of Alice’s clock would be almost the same as her own.

Everything would be similarly affected by the same degree of time dilation. 4. Why can’t Alice use the slowing of her clock and her own movements to prove that she is moving? All the peculiar effects described above are as observed by Bob from outside the moving train. As far as Alice is concerned, everything inside the train is perfectly normal, because neither her clock nor anything else in her carriage is moving relative to herself. Zero relative motion means zero time dilation. We should not be surprised that there is no time dilation, because if Alice noticed any change in her immediate surroundings as a result of her carriage’s motion, it would contravene Galileo’s principle of relativity.

Plugging the appropriate numbers into Einstein’s equation would show that the difference in their perception of time would be just one part in a trillion. In other words, it is impossible for humans to detect the everyday effects of time dilation. 2. Is this difference in time real? Yes, it is very real. There are numerous pieces of sophisticated hi-tech gadgetry that have to take into account time dilation in order to work properly. The Global Positioning System (GPS), which relies on satellites to pinpoint locations for devices such as car navigation systems, can function accurately only because it takes into account the effects of special relativity.


pages: 335 words: 95,280

The Greatest Story Ever Told--So Far by Lawrence M. Krauss

Alan Greenspan, Albert Einstein, complexity theory, cosmic microwave background, cosmological constant, dark matter, Ernest Rutherford, Higgs boson, How many piano tuners are there in Chicago?, Isaac Newton, Large Hadron Collider, Magellanic Cloud, Murray Gell-Mann, Plato's cave, public intellectual, RAND corporation, Richard Feynman, Richard Feynman: Challenger O-ring, the scientific method, time dilation

To make matters worse, it would take more fuel than there is mass in the galaxy to power a single such voyage, at least using conventional rockets of the type now in use. Nevertheless, science fiction woes aside, “time dilation”—as the relativistic slowing of clocks is called with regard to moving objects—is very much real, and very much experienced every day here on Earth. At high-energy particle accelerators such as the Large Hadron Collider, for example, we regularly accelerate elementary particles to speeds of 99.9999 percent of the speed of light and rely on the effects of relativity when exploring what happens. But even closer to home, relativistic time dilation has an impact. We on Earth are all bombarded every day by cosmic rays from space.

These particles are produced where high-energy protons in cosmic rays smash into the atmosphere, producing a shower of other, lighter particles—including muons—which are unstable, with a lifetime of about one-millionth of a second, and decay into electrons (and my favorite particles, neutrinos). If it weren’t for time dilation, we would never detect these muon cosmic rays on Earth. Because a muon traveling at close to the speed of light for a millionth of a second would cover about three hundred meters before decaying. But the muons raining down on Earth make it twenty kilometers, or about twelve and a half miles or so, from the upper atmosphere, in which they are produced, down to our Geiger counter.

., 12 dimensional analysis, 36 Dirac, Paul Adrien Maurice, 85, 91–95 antiparticle discovery by, 95, 97, 114, 115 combination of quantum mechanics and relativity by, 92, 95, 151 Einstein on, 91 electron equation of, 92–94, 99, 114 Feynman compared with, 97–98 Feynman’s first meeting with, 92 Feynman’s research based on, 99 mathematical prediction of new particle by, 93–94, 143 personality of, 91–92, 98 quantum theory of radiation and, 98, 99 Dirac equation, 92–94 displacement current, 37 double-slit experiment with light, 74–76, 77, 88 Dyson, Freeman, 85, 106, 235 E Eddington, Sir Arthur Stanley, 135 Eightfold Way (Gell-Mann), 193–94 Einstein, Albert, 4, 42, 49–68 background of, 46 Bose-Einstein condensation research by, 185–86 clocks relative to moving objects (time dilation) research of, 58–61 creativity and intellectual confidence of, 52 Dirac described by, 91 Galileo-Maxwell paradox resolution by, 49–54, 58, 64–65 General Theory of Relativity of, 10, 42, 68, 85, 110, 126, 295 gravity and, 114 inferences about real world using measurements and, 61–65 letter to President Roosevelt from, 129 Minkowski’s four-dimensional “space-time” theory and, 66–68, 71 Planck’s relationship with, 80–81 relativity discovery of, 95 ruler measurement example of relativity and, 65–67 space and time theory of, 55–58, 66, 68 Special Theory of Relativity of, 68, 80 electric charges Faraday’s research on, 25–30, 37–38, 68, 195 quantum electrodynamics (QED) and symmetry of, 106, 107 electric fields, Farady’s visualization of action of, 27–30, 193–94 electricity, Maxwell’s theory of magnetism and, 36–39, 48, 94, 218, 219 electromagnetic waves calculation of speed of, 42, 50–51 Faraday cage shield against, 195 Maxwell on light as, 42, 219 Maxwell’s discovery of, 41, 42, 46, 74 as particles, 81, 82 superconductors and different polarizations of, 199–200 electromagnetism gauge symmetry in quantum theory of, 111 Maxwell’s research on, 39–43, 46, 50–51, 68, 74, 109 electrons Dirac’s equation describing, 92–94 electric charge configurations of, 93–94 Feynman’s measurement of trajectories of, 100–102 mathematical expression of wave function of, 77 spin angular momentum of, 127, 164 spin configurations of, 93 Young’s double-slit experiment with beams of, 75–77 electroweak symmetry, 254, 277, 282, 283–84, 285, 287, 290, 294, 296–97 electroweak theory, 229, 278 publications questioning, 227 validation of, 228, 259 electroweak unification, 216–17, 218, 222, 231, 250, 259, 278 Englert, François, 206–7, 211, 271 European Organization for Nuclear Research (CERN), 225, 236 as dominant particle physics laboratory, 259, 262 Gargamelle detector at, 223–24, 225 Large Electron-Positron (LEP) Collider at, 262–63 Large Hadron Collider (LHC) at, 61, 263–74, 275, 284, 285, 286–87, 299 proton accelerator at, 222–23, 251 Super Proton Synchrotron (SPS) at, 251–52, 260, 262 evolution, 3, 5, 20 exclusion principle (Pauli), 123, 127 F Faraday, Michael, 24–30, 38 background of, 24–25 impact of discoveries of, 30, 31, 46, 68, 109 magnetic induction discovery of, 26–27, 30, 36 Maxwell’s meetings with, 36 Maxwell’s research and, 37, 38 research on electric charges and magnets by, 25–30, 37–38, 68, 195 visualization of action of fields by, 27–30, 193–94 Faraday cage, 195 Feenberg, Eugene, 169 Fermat, Pierre de, 98–99 Fermi, Enrico, 125–32 artificial radioactivity and, 128 background of, 126–27 experimental approach to physics used by, 129–30, 142 impact of research of, 125–26 neutrino named by, 123, 127, 130 neutron decay theory of, 127–29, 130–32, 136, 142, 143, 145–46, 149 nuclear research in Manhattan Project and, 129 potential dangers in releasing energy of atomic nucleus and, 129 statistical mechanics established by, 127 weak interaction theory of, 161, 162, 164 Yang’s work with, 153 Yukawa’s research and, 143, 144, 145–46 Fermi interaction, 136 Fermilab (Fermi National Accelerator Laboratory, Batavia, Illinois), 31, 251, 261, 262–63 fermions, 155, 185, 186, 233, 282, 283 Fermi Problems, 130 Feynman, Richard, 85, 97–106, 125, 159, 160, 228 antiparticles and, 100, 102 atomic bomb research of, 134 Bethe’s approach and, 134 Bjorken’s research on quarks and, 233 Block’s research on weak interaction and, 157–58 Dirac compared with, 97–98 Dirac’s first meeting with, 92 Dirac’s research used by, 99 electron trajectory measurement in time and, 100–102, 130 quantum electrodynamics (QED) and, 99, 102–6, 142, 175, 221, 235 research approach used by, 175, 245 on understanding quantum mechanics, 71 weak interaction research of, 159, 163–64 Fizeau, Hippolyte, 42 Fourier analysis, 126 Franklin, Benjamin, 170–71 Friedman, Jerry, 160, 232–33 G Galileo Galilei, 5, 21, 45–48 Catholic Church’s trial of, 45, 47 Einstein on Galileo-Maxwell paradox, 48–54, 58, 64–65 motion and rest state theory of, 45–48, 49, 70, 97, 168, 245 gamma rays, 116 neutron mass measurement using, 119 Rutherford’s discovery of, 119–20 Gargamelle detector, CERN, 223–24, 225 Garwin, Dick, 160 gauge bosons, 214, 217, 233, 254, 277, 278 gauge invariance, 109, 172, 198, 199, 228 gauge symmetry chessboard analogy to explain conservation of energy in, 108–9 description of, 108 differences in philosophical viewpoints on, 109–10 quantum electrodynamics and, 111–12 understanding nature of reality using, 110 Weyl’s naming of, 110–11 gauge transformation, 109 Geiger, Hans, 116, 118 Gell-Mann, Murray Glashow’s work with, 178 quarks and, 163, 193–94, 231–32, 233–34, 236, 240 scale equations of, 237 symmetry scheme of, 193, 214 weak interaction research of, 163–64 Yang-Mills theory and, 240–41 General Theory of Relativity (Einstein), 10, 42, 68, 85, 110, 126, 295 Genesis, 19, 43 Georgi, Howard, 276–77, 278, 279 Gilbert, Walter, 204–5 Gladstone, William, 26 Glashow, Sheldon, 177–79 approach to research used by, 178 background of, 177–78, 212 CERN research and, 252 electroweak unification and, 216–17, 218, 222, 278 Grand Unification and, 277, 279 on Higgs’s research, 207, 254, 276 Krauss’s career and, 213, 214 neutral currents and, 222, 225, 234 quarks and, 234, 241 Scottish Universities Summer School courses from, 203–4 weak interaction research of, 178–79, 207, 219, 223, 225, 276–77 Weinberg’s research and, 212–13, 218 Gold, Tommy, 113, 121 Goldstone, Jeffrey, 188, 203, 204, 206, 214 Goldstone bosons, 206, 214–15, 217 Grand Unified Theory (GUT), 277–79, 282–83, 290, 291, 292–93, 294 gravity dimensional analysis of, 36 Einstein’s research on, 114 Newton’s research on, 5, 27–28, 38, 48 quantum theory of, 110 Greenberg, Oscar, 233, 240 Gross, David, 235–41, 277 asymptotic freedom discovery of, 238–41, 245 background of, 235 Gell-Mann’s influence on, 236 quantum chromodynamics and, 241 research on quarks by, 236–37 scaling research of, 237–39 Yang-Mills theory and, 239, 240–41 group theory, 276 Guralnik, Gerald, 207 Gürsey, Feza, 123 Guth, Alan, 290, 291–92 H Hagen, C.


pages: 576 words: 150,183

Project Hail Mary by Andy Weir

Albert Einstein, data acquisition, easy for humans, difficult for computers, gravity well, low earth orbit, orbital mechanics / astrodynamics, patent troll, Skype, South China Sea, time dilation

Lamai decided was the maximum sustained g-force a human should be exposed to for almost four years. Earth experienced something like thirteen years during that time, but time dilation worked in our favor for the crew. If I do the long trip home with just 1.33 million kilograms of fuel (which is all my remaining tanks can hold), the most efficient course is a constant acceleration of 0.9 g’s. I’d be going slower, which means less time dilation, which means I experience more time. All told, I’ll experience five and a half years on that trip. So what? It’s only an extra year and a half. What’s the big deal?

Over three years. Well, it takes light twelve years to make this trip, so it should take me a long time too. Oh, right. Relativity. I have no idea how much time it took. Or, rather, I have no idea how much time I experienced. When you get going near the speed of light, you experience time dilation. More time will have gone by on Earth than I have experienced since I left Earth. Relativity is weird. Time is of the essence here. And unfortunately, while I slept, Earth experienced at least thirteen years. And even if I find a solution to the Astrophage problem right now, it would take at least thirteen years for that information to get back to Earth.

“Science Eridians design ship and fuel requirements. Journey to take 6.64 years.” That trips me up for a moment. 40 Eridani is ten light-years away from Tau Ceti, so you can’t get from one to the other in less than ten years from Erid’s point of view. He must mean 6.64 years of time experienced by his ship thanks to time dilation. “Strange things happen on trip. Crew sick. Die.” His voice lowers. “Now I know was radiation.” I look down and give him a moment. “Everyone sick. I alone to run ship. More strange things happen. Engines not work right. I am engine expert. I cannot figure out problem.” “Your engines failed?”


pages: 203 words: 63,257

Neutrino Hunters: The Thrilling Chase for a Ghostly Particle to Unlock the Secrets of the Universe by Ray Jayawardhana

Albert Einstein, Alfred Russel Wallace, anti-communist, Arthur Eddington, cosmic microwave background, dark matter, Eddington experiment, Ernest Rutherford, Higgs boson, invention of the telescope, Isaac Newton, it's over 9,000, Johannes Kepler, Large Hadron Collider, Magellanic Cloud, New Journalism, race to the bottom, random walk, Richard Feynman, Schrödinger's Cat, seminal paper, Skype, South China Sea, Stephen Hawking, time dilation, undersea cable, uranium enrichment

A TERRIBLE THING 27 special and general theories of relativity: There are many good popular books on relativity. For example, Russell Stannard, Relativity: A Very Short Introduction (New York: Oxford University Press, 2008) covers the basics well. 28 “time dilation”: Joseph Hafele and Richard Keating conducted one of the more famous experiments of relativistic time dilation in 1971 by flying four atomic clocks aboard commercial flights. They reported their findings in a pair of papers in Science: J. C. Hafele and R. E. Keating, “Around- the- World Atomic Clocks: Predicted Relativistic Time Gains” and “Around- the- World Atomic Clocks: Observed Relativistic Time Gains,” Science 177 (July 14, 1972): 166– 68 and 168– 70. 28 quantum mechanics: I remember reading In Search of Schrödinger’s Cat: Quantum Physics and Reality by John Gribbin (New York: Bantam Books, 1984) as a teenager.

The math works out to make it so, but it does lead to strange phenomena, such as time passing more slowly for those traveling very fast. If a future astronaut were to fly through space at 95 percent of light speed, she would age much less than her twin staying back on Earth. As peculiar as it may seem, scientists have verified that “time dilation” is real by flying atomic clocks around the world on airplanes and comparing them to identical clocks left on the ground. They have also confirmed the phenomenon many times over by measuring the change in the lifetime of subatomic particles traveling at different speeds. Ten years after he introduced the special theory, Einstein went on to present the general theory of relativity to describe gravity in a novel way.

Elements heavier than iron (e.g., gold) are produced only in supernovae. Supernova 1987A: The supernova in the Large Magellanic Cloud seen in the year 1987. Detectors on Earth also recorded neutrinos emitted during this supernova explosion. theory: A hypothesis that has withstood experimental and/or observational tests. time dilation: In the theory of relativity, the difference in elapsed time measured by two observers, either because one is traveling at a high speed relative to the other or because the two experience different gravitational potentials. tritium: A rare isotope of hydrogen whose nucleus contains two neutrons and a proton, instead of a lone proton, as is the case with ordinary hydrogen.


pages: 198 words: 57,703

The World According to Physics by Jim Al-Khalili

accounting loophole / creative accounting, Albert Einstein, butterfly effect, clockwork universe, cognitive dissonance, cosmic microwave background, cosmological constant, dark matter, double helix, Ernest Rutherford, fake news, Fellow of the Royal Society, germ theory of disease, gravity well, heat death of the universe, Higgs boson, information security, Internet of things, Isaac Newton, Large Hadron Collider, Murray Gell-Mann, post-truth, power law, publish or perish, quantum entanglement, Richard Feynman, Schrödinger's Cat, Stephen Hawking, supercomputer in your pocket, the scientific method, time dilation

Therefore, clocks at the Pole, where gravity is stronger, should be ticking ever so slightly slower than those at the equator (this is called general relativistic time dilation). However, the Earth is also spinning, and clocks at the equator are moving faster than clocks at the Pole (as measured by the adjudicating clock floating out in space) so equator clocks should tick more slowly than pole clocks (special relativistic time dilation). These two effects, due to special and general relativity, work against each other, so which one wins? Which clock is ticking more slowly? I calculated these two effects separately and found that a clock at the pole ticks, overall, more slowly because it feels stronger gravity, despite the clock on the equator moving faster.

., 95; quantisation of, 116–17; as qubits, 251–53; in Standard Model, 9; as waves vs. particles, 114–15, 117–18, 119, 137, 159, 180 electroweak force, 9, 174, 177, 231 emergent properties, 45–46, 165 Empedocles, 15–16 energy, 20, 21, 50; as capacity for work, 83; conservation of, 41, 85, 89–90, 167; dark, 7, 9, 193, 202–5, 210, 226, 276; distribution of, 142–43; as force, 84; of inflation field, 212–14; information linked to, 221; kinetic, 84, 89, 140, 151, 213; matter and, 82–107; types of, 84; useful vs. waste, 85–86, 146 engineering, 236, 239–40 entanglement, 123, 131–32, 222–23, 226, 244–45, 252, 253 entropy, 21, 143–47, 148–54, 163, 215, 243, 279 enzymes, 245 era of recombination, 101 ER = EPR theory, 222–23 eternal inflation, 216–18 ethology, 10 European Space Agency, 199 evolution, 270 excitation, 203, 228 exoplanets, 226 experimentation, 10–11, 14, 22, 24–25, 56, 226–27 Explorer 66 (Cosmic Background Explorer), 199n2 exponentiation, 209–10 false balance, 272–73 falsifiability, 270, 272 Faraday, Michael, 108, 242 fermions, 96, 104, 181 Feynman, Richard, 109 Feynman diagrams, 124 fifth dimension, 182–83 flatness problem, 206–8 force carrier particles, 92, 96–97, 104n4, 176, 187 four elements, 15–17 Franklin, Rosalind, 243 friction, 84, 140 Gaia, 1 galaxies, 49, 79, 98, 207–8; clusters of, 197; dwarf, 197; formation of, 150, 198, 217; mass of, 195; recession of, 201–2; rotational speed of, 193 Galileo Galilei, 26–27, 42, 62 gas clouds, 105–6, 147–49 gauge/gravity duality (anti–de Sitter/conformal theory correspondence; AdS/CFT), 232–33 Geiger, Hans, 90 Gell-Mann, Murray, 13 general relativity, 20, 53, 71–78, 169, 182, 203; curved spacetime and, 234; doubts and confirmations of, 267–68, 269–70; gravitation and pressure in, 212; gravitation and time in, 8, 36–39, 163, 260; loop quantum gravity linked to, 185–86, 233; quantum mechanics and, xiii, 40, 165; special relativity vs., 73–74; time dilation in, 261 Genesis, Book of, 1 genetics, 243 geocentrism, 126 geoids, 263 geology, 10, 241, 248 geometry, 25 germ theory, 270 GIMPs (gravitationally interacting massive particles), 200 globular star clusters, 197 gluons, 92–93, 97, 103, 176, 191 gold, 106 Google, 253, 256 GPS (global positioning system), 38–39, 72, 240–41, 259 grand unified theory (GUT), 177 graphene, 247 gravitational field, 84, 248; curved spacetime linked to, 72–73, 163, 170; quantisation of, 180, 186–87; spacetime equated with, 76–78, 163, 169, 186; time and, 36–38, 72–74 gravitational waves, 225–26 graviton, 187 gravity, 8, 9, 84, 174, 275; on cosmic scale, 49–50, 92; electromagnetism and, 169–70; force vs. potential of, 37–38; within galaxies, 79; gas cloud formation and, 105–6, 147–49; loop quantum, xiii, 185–91, 238, 291; lumpy quanta of, 186–87; parity conservation and, 44; quantum, 40, 42, 132, 165, 178–80, 221, 233, 235, 238, 258, 276; spacetime linked to, 72–73, 74, 76–78; star and galaxy formation and, 150; ‘superforce’ and, 167; tides and, 151; universality of, 35–39, 168; weakness of, 229 Gravity and Me (television documentary), 259 Grover’s search algorithm, 254 Hartle, James, 216 Hawking, Stephen, 5, 24, 206, 214, 220, 226 Hawking radiation, 24, 220 al-Haytham, Ibn, 27, 55–56 heat, 21, 140, 151.


pages: 313 words: 92,053

Places of the Heart: The Psychogeography of Everyday Life by Colin Ellard

Apollo 11, augmented reality, Benoit Mandelbrot, Berlin Wall, Broken windows theory, Buckminster Fuller, carbon footprint, classic study, cognitive load, commoditize, crowdsourcing, data science, Dunbar number, Frank Gehry, gentrification, Google Glasses, Guggenheim Bilbao, haute couture, Howard Rheingold, Internet of things, Jaron Lanier, Lewis Mumford, mandelbrot fractal, Marshall McLuhan, Masdar, mass immigration, megastructure, mirror neurons, Mondo 2000, more computing power than Apollo, Oculus Rift, overview effect, Peter Eisenman, RFID, Richard Florida, risk tolerance, sentiment analysis, Skinner box, smart cities, starchitect, TED Talk, the built environment, theory of mind, time dilation, urban decay, urban planning, urban sprawl, Victor Gruen

Based on previous observations that awe experiences can affect our perception of time and produce a feeling of living-in-the-moment, Rudd designed a series of survey questions focusing on the subjective experience of time. Rudd showed convincingly that the experience of awe induces a kind of subjective time dilation. We feel as though there is more time to get things done, that the subjective instant is slowed. As a follow-up consequence of this perhaps, those who experienced awe were also more willing to engage in certain prosocial behaviors that, in her experiment, were contextualized in the form of expressions of willingness to donate money to worthy causes.16 Although these findings do not fit easily into the framework I described earlier in which awe is said to produce an effort to accommodate, to bring into alignment mutually contradictory ideas about one’s existence, it is possible to see a connection between Rudd’s findings of time dilation and my earlier description of such phenomena as the Overview Effect in which we feel a sense of expanding space and a dissolution of the divide between ourselves and the rest of the universe.

As a follow-up consequence of this perhaps, those who experienced awe were also more willing to engage in certain prosocial behaviors that, in her experiment, were contextualized in the form of expressions of willingness to donate money to worthy causes.16 Although these findings do not fit easily into the framework I described earlier in which awe is said to produce an effort to accommodate, to bring into alignment mutually contradictory ideas about one’s existence, it is possible to see a connection between Rudd’s findings of time dilation and my earlier description of such phenomena as the Overview Effect in which we feel a sense of expanding space and a dissolution of the divide between ourselves and the rest of the universe. Just as the spatial divides of the universe might break down during the experience of awe, so one might expect to see shifts in the temporal horizons of our lives.

See body, awareness; self-consciousness awe accommodation and, 154–55, 165 animal behavior and, 156–57, 158–59 architecture inspiring, 155–56, 167–68, 171, 173 in childhood, 11–12, 151 elements of, 152–55 mortality coping by, 164–67 neuroscience of, 172–73 Overview Effect and, 152, 166 religious activity and, 154–55, 163, 165, 166–67 social engagement and, 166 social status and, 156–58, 167–68 of space exploration, 151–52 supernatural agents and, 154, 166–67, 172–73 time dilation and, 166 transcendence and, 152–53, 155, 172–73 upward gaze and, 171–73 vastness and, 154, 155, 156, 158, 171–73 Bachelard, Gaston, 66 Bailenson, Jeremy, 177 Barton, Kevin, 180 basal ganglia, 200 Basic Writings (Heidegger, Martin), 79 Beall, Andy, 174 Becker, Ernest, 162 bedrooms, 61 Beesley, Philip, 53–56, 57, 59, 74 Being and Time (Heidegger, Martin), 79 Bell Telephone Company, 111 Benjamin, Walter, 78, 193 Berlin, 23–24, 56 Berlyne, David, 111–13 birds, 31–32, 158–59 BlackBerry, 197 Blanke, Olaf, 170, 191 Blascovitch, Jim, 176–77, 179 BMW-Guggenheim Laboratory, 72 body.


pages: 282 words: 89,436

Einstein's Dice and Schrödinger's Cat: How Two Great Minds Battled Quantum Randomness to Create a Unified Theory of Physics by Paul Halpern

Albert Einstein, Albert Michelson, Arthur Eddington, Brownian motion, clockwork universe, cosmological constant, dark matter, double helix, Eddington experiment, Ernest Rutherford, Fellow of the Royal Society, Higgs boson, Isaac Newton, Johannes Kepler, John von Neumann, Large Hadron Collider, lone genius, luminiferous ether, Murray Gell-Mann, New Journalism, orbital mechanics / astrodynamics, quantum entanglement, Richard Feynman, Schrödinger's Cat, seminal paper, The Present Situation in Quantum Mechanics, time dilation

He decided to discard the concepts of absolute time and space (the latter so disliked by Mach) and replace them with more malleable notions. If, he reasoned, moving observers saw clocks ticking slower and yardsticks shrinking in the direction of motion, 36 The Clockwork Universe light’s speed could maintain the same value. These two ideas—time dilation and length contraction—brought together Maxwell’s theory with an amended theory of motion, banishing one of Kelvin’s clouds and bringing on a sunny future. Time dilation involves a discrepancy between the “proper time” of an observer moving along with something under study and the relative time of a second observer traveling at a different constant speed compared to the first.

So, if an actress dressed in a certain style during the 2016 Oscars ceremony and a Proxima Centaurian four light-years away adopted the same style in 2017, she couldn’t be accused of being a copycat, as the interval between them would be spacelike, with no possibility of 39 Einstein’s Dice and Schrödinger’s Cat causal communication. A signal would have taken a minimum of four years, not one year. The Centaurian fashion statement would merely be cosmic coincidence. By framing the special theory of relativity as a four-dimensional theory set in spacetime, Minkowski showed how time dilation and length contraction could be construed as rotations that transform space into time. To see how such rotations occur, we can think of the spacetime interval as something like a weather vane, with north representing time and east representing space. Switching between two different perspectives is like a turning of the vane from east-northeast to north-northeast—taking away some of its easterly component and replacing it with a more northerly component.

Einstein (Barnett), 204 The Universe Next Door (Wilson), 218 University of Berlin, 7, 56, 109–110 University of Bern, 40 University of Ghent, 155, 157 University of Göttingen, 69–70, 71, 72, 82, 84–88, 116, 128–129, 130, 180 University of Graz, 5, 144, 145, 153 University of Königsberg, 29 University of Prague, 54 University of São Paulo, 209 University of Vienna, 24–26, 45, 144, 214–215, 219 University of Zurich, 34, 40, 54, 91–92 Up quarks, 227 Talmey, Max, 22, 33 Tau neutrinos, 227 Tauons, 227 Tears for Fears, 218–219 Teleparallelism, 112–114 Tensors, 54 Einstein, 59, 60–61, 62, 72, 172 metric, 61, 62, 172, 187, 188 Ricci, 172, 173, 191 Riemann curvature, 61 stress-energy, 59, 60, 62 Tetrad, 112–113 Thermal physics, 23 Thermodynamics, 22–24 The Third Policeman (O’Nolan), 165 Thirring, Hans, 25, 51, 64, 144, 151, 152, 217, 228 Thirring, Walter, 5, 219–220 Thomson, J. J., 28, 67, 129 Thomson, William (Lord Kelvin), 31 The Threepenny Opera (Brecht & Weill), 109 Time dilation, 37, 40 Time magazine, 174, 195, 196 Times (newspaper), 68, 114 Tomonaga, Sin-Itiro, 199 Top quarks, 227 Torsion balance, 53 Total angular momentum, 82 Tuam Herald (newspaper), 196 Turner, Michael, 65 U(1), 210 Uhlenbeck, George, 95, 179 Ultraviolet catastrophe, 32 Unamuno, Miguel de, 164 Uncertainty principle, 89, 137, 139, 143, 147 Unified field theory criticism of, 208 Einstein and, 1, 6–7, 49, 68, 74, 112–116, 146–147, van Nieuwenhuizen, Peter, 231 Vedantic beliefs, Schrödinger and, 76, 77–78, 80, 120, 217–218 Veltman, Martinus, 211 Vienna conference of 1913, 44–51 von Eötvös, Loránd, 53 270 Index 214 Wheeler, John, 198, 199 Whittaker, E.


pages: 634 words: 185,116

From eternity to here: the quest for the ultimate theory of time by Sean M. Carroll

Albert Einstein, Albert Michelson, anthropic principle, Arthur Eddington, Brownian motion, cellular automata, Claude Shannon: information theory, Columbine, cosmic microwave background, cosmological constant, cosmological principle, dark matter, dematerialisation, double helix, en.wikipedia.org, gravity well, Great Leap Forward, Harlow Shapley and Heber Curtis, heat death of the universe, Henri Poincaré, Isaac Newton, Johannes Kepler, John von Neumann, Lao Tzu, Laplace demon, Large Hadron Collider, lone genius, low earth orbit, New Journalism, Norbert Wiener, pets.com, Pierre-Simon Laplace, Richard Feynman, Richard Stallman, Schrödinger's Cat, Slavoj Žižek, Stephen Hawking, stochastic process, synthetic biology, the scientific method, time dilation, wikimedia commons

The answer, according to special relativity, is that it’s not the speed of light that depends on your reference frame—it’s your notion of a “kilometer” and a “second.” If a meterstick passes by us at high velocity, it undergoes “length contraction”—it appears shorter than the meterstick that is sitting at rest in our reference frame. Likewise, if a clock moves by us at high velocity, it undergoes “time dilation”—it appears to be ticking more slowly than the clock that is sitting at rest. Together, these phenomena precisely compensate for any relative motion, so that everyone measures exactly the same speed of light.63 The invariance of the speed of light carries with it an important corollary: Nothing can move faster than light.

No matter what they do, how hard they accelerate or for how long, the light is always moving faster, and always moving faster by the same amount.64 (From their point of view, that is. From the perspective of an external observer, they appear to be moving closer and closer to the speed of light, but they never reach it.) However, while length contraction and time dilation are perfectly legitimate ways to think about special relativity, they can also get pretty confusing. When we think about the “length” of some physical object, we need to measure the distance between one end of it and the other, but implicitly we need to do so at the same time. (You can’t make yourself taller by putting a mark on the wall by your feet, climbing a ladder, putting another mark by your head, and proclaiming the distance between the marks to be your height.)

That, for example, is the basic mechanism behind the Global Positioning System (GPS) that helps modern cars give driving directions in real time. Your personal GPS receiver gets signals from a number of satellites orbiting the Earth, and determines its position by comparing the time between the different signals. That calculation would quickly go astray if the gravitational time dilation due to general relativity were not taken into account; the GPS satellites experience about 38 more microseconds per day in orbit than they would on the ground. Rather than teaching your receiver equations from general relativity, the solution actually adopted is to tune the satellite clocks so that they run a little bit more slowly than they should if they were to keep correct time down here on the surface.


pages: 265 words: 76,875

Exoplanets by Donald Goldsmith

Albert Einstein, Albert Michelson, Carrington event, Colonization of Mars, cosmic abundance, dark matter, Dava Sobel, en.wikipedia.org, Great Leap Forward, Isaac Newton, James Webb Space Telescope, Johannes Kepler, Kickstarter, Kuiper Belt, Magellanic Cloud, Mars Rover, megastructure, Pluto: dwarf planet, race to the bottom, Ralph Waldo Emerson, Search for Extraterrestrial Intelligence, Stephen Hawking, time dilation

Double ­these times to allow for the return journey, and the trips would last a lifetime or more. 213 EXOPLANETS But would it? Not if travel velocities rise so close to the speed of light that the effects of Einstein’s special theory of relativity play an impor­tant role.4 First published in 1905, Einstein’s theory includes the effects of “time dilation,” the slowing down of time that occurs for anyone who travels at speeds close to the speed of light. Time dilation offers a ­great advantage to ­future interstellar astronauts, allowing them to complete journeys that span dozens of light years while they age by only a few years. For example, an astronaut moving at 80 ­percent of the speed of light would age only 60 ­percent as rapidly as her twin left on Earth; at 95 ­percent of light speed, she would age 31 ­percent as rapidly, and at 99.5 ­percent of the speed of light, her aging would occur only 10 ­percent as rapidly.

See Photons Red dwarfs, 43, 45, 82–83, 107–8, 119, 167, 170–71 Red ­giants, 100, 187 Rees, Martin, 212 Roque de los Muchachos Observatory, 46, 196 Sahu, Kailash, 83 Sasselov, Dimitar, 157 Saturn, 22, 58, 66, 71–72, 79, 96, 98, 101–2, 115, 117, 121, 128, 138, 164–65, 212 Schilling, Govert, 3 Seager, Sara, 191–92 SETI (Search for Extraterrestrial Intelligence), 86, 102 Shankman, Cory, 23 Silicates, 108 Silicon, 137, 153, 219–20 252 Index Solar eclipse, 75 Sound waves, 89, 122, 202 South African Large Telescope (SALT), 196 Southwest Research Institute, 141 SPACE Act, 222 Space Interferometry Mission (SIM), 203 Spectroscopic analy­sis, 8, 17–18, 30, 47–49, 62, 66, 71, 111, 122, 129, 172, 182, 194, 199, 211 SPHERE (Spectro-­Polarimetric High-­contrast Exoplanet REsearch), 73 Spitzer Space Telescope, 79, 81, 104–7, 119, 178, 191 Spring tides, 149 Stanford University, 154 Stars brown-­dwarf, 41, 69, 82 composition of, 151–52 distances of, 6–18, 31–59, 62, 77, 205–20 energy generation in, 56, 67, 82–83, 99–100, 119–20, 137, 152, 218 flares on, 31, 56, 123, 169–79, 189 formation of, 41 lifetimes of, 171 luminosity of, 43–44, 82, 93, 101–13, 117–19, 152, 163, 169, 172, 185, 207 masses of, 31–32, 79, 81 metallicity of, 153 subgiant, 99 Stein 2051 B, 83 Subgiant stars, 99 Sub-­Neptunes, 129–33, 138, 144 Super-­Earths, 129–33 SuperWASP, 110 Tabby’s Star, 92–95 Temperatures suitable for life. See Habitable zone TESS (Transiting Exoplanet Survey Satellite), 125, 142, 187 Thirty Meter Telescope (TMT), 194, 198–99 Tidal friction, 148 Tidal locking, 149–50 Tides, 148–49 Time dilation, 214 Timmins (Ontario), 220 Titan, 25, 165 Townes, Charles, 210 Transit observations, 14, 46, 50, 60–64, 66 Transit technique, 14, 46, 50–56, 59, 90, 102, 116, 125, 128 Transit timing variations, 112–13, 166 TRAPPIST (TRAnsiting Planets and PlanetesImals Small Telescope), 118–19 TRAPPIST-1, 82, 118–24, 166 Trimble, ­Virginia, 14 Turyshev, Slava, 205–6 TW Hydrae, 144, 147 Twin paradox, 214–15 Ultraviolet radiation, 8, 43, 56, 110, 123–24, 169, 177–78 University of California Irvine, 14 Los Angeles (UCLA), 205 Santa Barbara, 209 Uranus, 21–22, 27, 72, 138, 144 Van de Kamp, Peter, 20 Venus, 26, 52–55, 96, 99, 124, 155, 162 Very Large Array, 202–3 Vis­i­ble light, 24–25, 55, 58, 76–79, 122, 182, 184, 189–90, 194, 209, 211–12, 215–16 Vogt, Stephen, 34, 129 Volcano, 47, 198 253 Index Walker, Gordon, 31 WASP 33b, 111 ­Water, 58, 60, 72, 89, 98–101, 106, 108, 111, 115, 122–23, 137–38, 143, 149, 159–68, 172–73, 186, 199, 223 WFIRST (Wide-­Field InfraRed Space Telescope), 64, 167, 188–93 White dwarfs, 28, 82–83, 88 Winn, Joshua, 42, 59 Wolszczan, Alex, 24–25 Worden, Peter, 212 Wright, Jason, 155 WTF Star, 92 X rays, 8, 167 254


pages: 442 words: 127,300

Why We Sleep: Unlocking the Power of Sleep and Dreams by Matthew Walker

A. Roger Ekirch, active measures, autism spectrum disorder, Boeing 747, caloric restriction, caloric restriction, clockwatching, Dmitri Mendeleev, Donald Trump, Exxon Valdez, impulse control, lifelogging, longitudinal study, medical residency, meta-analysis, microbiome, mouse model, orbital mechanics / astrodynamics, Pepsi Challenge, placebo effect, RAND corporation, Ronald Reagan, seminal paper, systems thinking, the scientific method, time dilation

Provide your email again so we can register this ebook and send you more of what you like to read. You will continue to receive exclusive offers in your inbox. Contents – Part 1 – This Thing Called Sleep Chapter 1  To Sleep . . . Chapter 2  Caffeine, Jet Lag, and Melatonin: Losing and Gaining Control of Your Sleep Rhythm Chapter 3  Defining and Generating Sleep: Time Dilation and What We Learned from a Baby in 1952 Chapter 4  Ape Beds, Dinosaurs, and Napping with Half a Brain: Who Sleeps, How Do We Sleep, and How Much? Chapter 5  Changes in Sleep Across the Life Span – Part 2 – Why Should You Sleep? Chapter 6  Your Mother and Shakespeare Knew: The Benefits of Sleep for the Brain Chapter 7  Too Extreme for the Guinness Book of World Records: Sleep Deprivation and the Brain Chapter 8  Cancer, Heart Attacks, and a Shorter Life: Sleep Deprivation and the Body – Part 3 – How and Why We Dream Chapter 9  Routinely Psychotic: REM-Sleep Dreaming Chapter 10 Dreaming as Overnight Therapy Chapter 11 Dream Creativity and Dream Control – Part 4 – From Sleeping Pills to Society Transformed Chapter 12 Things That Go Bump in the Night: Sleep Disorders and Death Caused by No Sleep Chapter 13 iPads, Factory Whistles, and Nightcaps: What’s Stopping You from Sleeping?

Rovner, Spider Communication: Mechanisms and Ecological Significance (Princeton University Press, 1982). XI. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3902880/bin/aasm.37.1.9s1.tif (source: D. J. Buysse, “Sleep Health: Can we define it? Does it matter?” SLEEP 37, no. 1 [2014]: 9–17). CHAPTER 3 * * * Defining and Generating Sleep Time Dilation and What We Learned from a Baby in 1952 Perhaps you walked into your living room late one night while chatting with a friend. You saw a family member (let’s call her Jessica) lying still on the couch, not making a peep, body recumbent and head lolling to one side. Immediately, you turned to your friend and said, “Shhhhh, Jessica’s sleeping.”

Your brain, it seems, is still capable of logging time with quite remarkable precision while asleep. Like so many other operations occurring within the brain, you simply don’t have explicit access to this accurate time knowledge during sleep. It all flies below the radar of consciousness, surfacing only when needed. One last temporal distortion deserves mention here—that of time dilation in dreams, beyond sleep itself. Time isn’t quite time within dreams. It is most often elongated. Consider the last time you hit the snooze button on your alarm, having been woken from a dream. Mercifully, you are giving yourself another delicious five minutes of sleep. You go right back to dreaming.


Alpha Trader by Brent Donnelly

Abraham Wald, algorithmic trading, Asian financial crisis, Atul Gawande, autonomous vehicles, backtesting, barriers to entry, beat the dealer, behavioural economics, bitcoin, Boeing 747, buy low sell high, Checklist Manifesto, commodity trading advisor, coronavirus, correlation does not imply causation, COVID-19, crowdsourcing, cryptocurrency, currency manipulation / currency intervention, currency risk, deep learning, diversification, Edward Thorp, Elliott wave, Elon Musk, endowment effect, eurozone crisis, fail fast, financial engineering, fixed income, Flash crash, full employment, global macro, global pandemic, Gordon Gekko, hedonic treadmill, helicopter parent, high net worth, hindsight bias, implied volatility, impulse control, Inbox Zero, index fund, inflation targeting, information asymmetry, invisible hand, iterative process, junk bonds, Kaizen: continuous improvement, law of one price, loss aversion, low interest rates, margin call, market bubble, market microstructure, Market Wizards by Jack D. Schwager, McMansion, Monty Hall problem, Network effects, nowcasting, PalmPilot, paper trading, pattern recognition, Peter Thiel, prediction markets, price anchoring, price discovery process, price stability, quantitative easing, quantitative trading / quantitative finance, random walk, Reminiscences of a Stock Operator, reserve currency, risk tolerance, Robert Shiller, secular stagnation, Sharpe ratio, short selling, side project, Stanford marshmallow experiment, Stanford prison experiment, survivorship bias, tail risk, TED Talk, the scientific method, The Wisdom of Crowds, theory of mind, time dilation, too big to fail, transaction costs, value at risk, very high income, yield curve, you are the product, zero-sum game

Then, later in the day when things were quiet, I would go look at the 1-minute chart and could not see enough detail to capture what had happened. I would have to go to a 1-second chart to see the levels at which I did those 5 or 6 trades and I would realize that the entire sequence, which felt like 15 minutes, actually took more like 90 seconds. This time dilation is a common feature in sports, military action, trading, and other fast-moving pursuits that require rapid-fire, high-stakes decision making. Of course, the stakes are much higher in the military but the mental effect where time slows down is similar. Once you get that feeling of excitement, the in the zone moments where the P&L piles up so fast you can’t believe your eyes—you want that feeling again.

He tries to sell at 90.80 and whiffs. USDJPY is suddenly in freefall. 90.10 trades. 90.00 breaks. USDJPY has just dropped more than four percent in a few hours. A monster move. [fast markets] The trader’s eyes flick over to his P&L which has now shrunk back to six digits. Two-thirds of three days’ work, gone in 60 seconds. [time dilation] And then… Stocks sell off hard out of nowhere. Like… REALLY HARD. The S&P squawk guy is losing it. Screaming. 1100 breaks in the S&P. 1080, 1070, 1060. USDJPY is a waterfall. The squawk loses his mind as he yells: “We have some BIG paper sellers here… 7 evens are trading. 6 evens are trading!

He is furious with himself [forgive yourself ] because he had the right trade, waited patiently for almost three days for it to work, caught the move perfectly according to plan [stick to the plan, you win] … And then flipped the other way on a whim, for no reason and gave everything and more back in half an hour. [when you don’t stick to the plan, you lose] $2.8 million is a good month for this trader. He just made and lost that much in less than two hours. [time dilation] I am an idiot. How did I get into this mess? He needs to make a decision here and quick but he realizes that he is flooded. [Alpha Traders are self-aware] It is impossible to make a good trading decision when you’re flooded. [Alpha Traders make rational, quality decisions] He needs a second to clear his mind.


pages: 342 words: 101,370

Test Gods: Virgin Galactic and the Making of a Modern Astronaut by Nicholas Schmidle

Apollo 11, bitcoin, Boeing 737 MAX, Charles Lindbergh, Colonization of Mars, crew resource management, crewed spaceflight, D. B. Cooper, Dennis Tito, Donald Trump, dual-use technology, El Camino Real, Elon Musk, game design, Jeff Bezos, low earth orbit, Neil Armstrong, no-fly zone, Norman Mailer, Oklahoma City bombing, overview effect, private spaceflight, Ralph Waldo Emerson, risk tolerance, Ronald Reagan, Scaled Composites, Silicon Valley, SpaceShipOne, Stephen Hawking, Tacoma Narrows Bridge, time dilation, trade route, twin studies, vertical integration, Virgin Galactic, X Prize

Sensors attached to Stucky’s body showed his heart rate jump forty beats a minute during the first few seconds after the rocket fired, but he felt eerily calm, like time had become an elastic concept that was stretching to let him think—a phenomenon described by another test pilot as akin to “time dilation.” Soon he and Mackay were traveling at Mach 1.8, about twice as fast as a Tomahawk cruise missile. Outside the vehicle, the light was draining from the sky, turning it a deep, muddy blue. But as the spaceship cleared 60,000 feet Stucky suddenly felt the wings tipping, like the ship wanted to flip upside down.

“To paraphrase Harrison Storms”: Email provided to author. “I often say that rockets”: Email provided to author. “It takes a Real Test Pilot”: Email provided to author. “I’ve got some cool SS2 fights”: Email provided to author. “You’re bug-eyed, thrilled to your toes”: Yeager and Janos, Yeager. 25: SLIPPING THE SURLY BONDS “time dilation”: Walker and Conger, “I Fly the X-15, Half Plane, Half Missile.” 26: MILLION-DOLLAR VIEW FORGER CAN’T GET IT UP: Email provided to author. “subtleness of the sea”: Melville, Moby-Dick. Three years before Neil Armstrong landed: Barton C. Hacker and James M. Grimwood, On the Shoulders of Titans: A History of Project Gemini (Washington, DC: Scientific and Technical Information Office, National Aeronautics and Space Administration, 1977).

Kincheloe Award from Society of Experimental Test Pilots risk tolerance and rocket-powered flight test and Rutan and Saling and at Scaled Composites Schmidle (author) and Schmidle (Robert) and Schmidle’s “Rocket Man” profile in New Yorker SETP and shunned by Scaled Siebold and in SkiGull skydiving and at Space Mirror Memorial SpaceShipTwo and SpaceShipTwo’s final glide flight (2018) before rocket-powered flights test flight with Beth Moses on board and as test pilot for NASA as test pilot in Middle East tours Scaled Composites in training squadron in Yuma, Arizona Virgin Galactic and wager with Fischer in Washington, DC at winging ceremony Stucky, Paul Stucky, Sascha Sturckow, Rick (“C.J. [Caustic Junior]”) ceremony in his honor first SpaceShipTwo space flight and Schmidle (author) and at Space Mirror Memorial “suborbital flights” Sunday Times surface-to-air missiles (SAMs) T-34 prop plane T-38s Tai, Alex Taliban Tesla Roadster “Test Gods” Test Pilot “time dilation” Tito, Dennis Today Top Gun (film) Top Gun (school) Tracy, Spencer “transonic zone” Travolta, John Trump, Donald Tyson, Neil deGrasse U-2 Under Armour United Airlines United Arab Emirates US Congress US Defense Department Vance, Ashlee Virgin Galactic absence of metrics and accuses Scaled Composites of sloppiness announces move to New Mexico author’s view of Branson’s dream of challenges faced by clings to its niche “Cosmic Brand and Marketing” division crash of SpaceShipTwo and disbonding issues and first SpaceShipTwo space flight and funding for grayout and grounds SpaceShipTwo Instagram post on “Sticky” IPO and launches Virgin Orbit lead in suborbital race in jeopardy marketing by media and as a movement move to Spaceport America no longer aiming for 328,000 feet O’Donoghue’s report to partnership with Under Armour Patterson and potential to be a viable business publicity and pursues legal action against Scaled Composites reschedules SpaceShipTwo flight rocket motor and rubber-fuel design developed by Scaled Composites and Schmidle (author) embeds with SpaceDev and Spaceship Company and SpaceShipTwo and Stucky and Sturckow and Virgin Hotel Virgin Mobile Virgin Orbit Virgin Records VMFA-333 squadron von Kármán, Theodore Voskhod Vostok Washington, DC Washington Post weather Whitehorn, Will White Knight WhiteKnightTwo at Alsbury memorial service “captive carry” test and first SpaceShipTwo space flight and flight tests and hairline cracks in at party in 2009 Whitesides, George Alsbury’s death and downplays rivalries Ericson’s loss of faith in Ericson’s resignation to fearfulness of first SpaceShipTwo space flight and h-stab problem and indecisiveness of IPO and media and Whitson, Peggy Winslet, Kate Wolfe, Tom Right Stuff, The “Truest Sport: Jousting with Sam and Charlie, The” Wright, Wilbur Wright Brothers X-1 X-15 XCOR X Prize Yamazaki, Taichi Yeager, Chuck Yousafzai, Malala Yuri’s Night Zawahiri, Ayman al- ABOUT THE AUTHOR NICHOLAS SCHMIDLE writes for the New Yorker and is the author of To Live or to Perish Forever: Two Tumultuous Years in Pakistan.


pages: 745 words: 207,187

Accessory to War: The Unspoken Alliance Between Astrophysics and the Military by Neil Degrasse Tyson, Avis Lang

active measures, Admiral Zheng, airport security, anti-communist, Apollo 11, Arthur Eddington, Benoit Mandelbrot, Berlin Wall, British Empire, Buckminster Fuller, Carrington event, Charles Lindbergh, collapse of Lehman Brothers, Colonization of Mars, commoditize, corporate governance, cosmic microwave background, credit crunch, cuban missile crisis, dark matter, Dava Sobel, disinformation, Donald Trump, Doomsday Clock, Dr. Strangelove, dual-use technology, Eddington experiment, Edward Snowden, energy security, Eratosthenes, European colonialism, fake news, Fellow of the Royal Society, Ford Model T, global value chain, Google Earth, GPS: selective availability, Great Leap Forward, Herman Kahn, Higgs boson, invention of movable type, invention of the printing press, invention of the telescope, Isaac Newton, James Webb Space Telescope, Johannes Kepler, John Harrison: Longitude, Karl Jansky, Kuiper Belt, Large Hadron Collider, Late Heavy Bombardment, Laura Poitras, Lewis Mumford, lone genius, low earth orbit, mandelbrot fractal, Maui Hawaii, Mercator projection, Mikhail Gorbachev, military-industrial complex, mutually assured destruction, Neil Armstrong, New Journalism, Northpointe / Correctional Offender Management Profiling for Alternative Sanctions, operation paperclip, pattern recognition, Pierre-Simon Laplace, precision agriculture, prediction markets, profit motive, Project Plowshare, purchasing power parity, quantum entanglement, RAND corporation, Ronald Reagan, Search for Extraterrestrial Intelligence, skunkworks, South China Sea, space junk, Stephen Hawking, Strategic Defense Initiative, subprime mortgage crisis, the long tail, time dilation, trade route, War on Poverty, wikimedia commons, zero-sum game

One is that your inner time clock will appear to tick more slowly, as seen by all those who observe you. Your time “dilates.” And muons in a cosmic-ray cascade offer one of the most striking tests of this phenomenon. Because they travel at such high speeds, we see them living ten times longer before they decay—and, as a result, reaching much deeper into Earth’s atmosphere—than they “should.” If you don’t happen to be going as fast as a muon, you’ll still experience a little time dilation. Spend six months on the International Space Station, which is traveling five miles per second around Earth (a mere 0.0027 percent the speed of light), and you will have aged 0.005 seconds less than everybody else on Earth.

Space-based detectors came online, superseding ground-based detectors made from recycled World War II matériel.15 Incidentally, gamma rays and a myriad of subatomic particles are generated by the collision of superhigh-energy cosmic rays with Earth’s atmosphere. Within this cascade lurks striking evidence of time dilation, a feature of Einstein’s theory of relativity. Cosmic-ray particles move through space at upward of 99.5 percent the speed of light. When they slam into the top of Earth’s atmosphere, they break down into many subproducts, each with less and less energy per particle, forming an avalanche of elementary particles that descend toward Earth’s surface.

., 324–25, 531n ibn Mājid, Ahmad, 73, 74, 432n, 434n Iceland Christopher Columbus and, 85, 437n discovery by Irish monks, 65 Flóki saga, 430–31n Pytheas and, 71, 72, 433n Reagan-Gorbachev summit, 359 IEEE High Performance Extreme Computing Conference (2014), 224 Imago Mundi (d’Ailly), 86 immigrants in science and engineering, 21–22 Imperial America: Reflections of the United States of Amnesia (Vidal), 35 India ASATs (antisatellite weapons), 259 astrology in, 54 Bharatiya Janata Party, 54 education and life expectancy, 519n Giant Metrewave Radio Telescope, 182–83 launch services provided, 352 military spending, 353, 519n RISAT-2 satellite, 159 science and technology degrees awarded, 22 space program, 351–52 TES (Technology Experiment Satellite), 159 Indian Space Research Organisation (ISRO), 159, 352, 533n industry unity, 25, 26 Infrared Celestial Backgrounds program, 219, 221 infrared light detection of, 169–70, 199, 219–25 detector technology, 223–24, 475–76n discovery of, 146, 167–68, 220, 461n Earth’s atmosphere and, 199 emission of, 170 heat signatures, 219–20 missile detection, 219–20 nonlethal weapons using, 201 sky surveys, 219, 220–22, 223, 224–25 insulation (polyethylene), 186 Inter-Allied Military Control Commission (IAMCC), 137, 454n interferometers (radio telescopes), 182–83 Intermediate Nuclear Forces Treaty, 307 International Charter: Space and Major Disasters, 206–7 International Conference on High Performance Computing, Networking, Storage and Analysis (2012), 224 International Council of Scientific Unions, 261 international dateline, 88–89 International Geophysical Year (IGY), 261, 264, 267, 269, 292 International Launch Services, 363 International Meridian Conference, 89, 92, 98–99 International Politics of Space, The (Sheehan), 151, 522n International Space Station (ISS) ACES (Atomic Clock Ensemble in Space), 339 American astronauts ferried by Russia, 27–28, 363, 370, 372, 389 Canada and, 352, 353, 365, 368, 520n China’s exclusion from, 366, 373–74, 376–77 Columbus laboratory, 368 cost, 366, 367–68, 524n early concepts for, 352 failure of supply missions, 364, 389 history, 365–72 Japan and, 352, 355, 365, 368, 520n Kibo space laboratory, 355, 368, 520n oneness of Earth viewed from, 15, 316, 414n opposition to, 368–69 Russian service module, 363, 364, 368, 372 scheduled end of operation, 370–71, 377 Soyuz transport to, 363, 364, 370, 372, 389 spacefarer collaboration on, 316, 366 time dilation on, 218 United States as “hegemonic partner,” 370, 525n International Telecommunications Satellite Organization (Intelsat), 340, 501n invisibility, 165, 172, 175, 459–60n ionosphere ballistic missile passage through, 181, 183, 192 GPS satellites and, 333 Project Defender and, 181 and radar research, 183, 187, 190, 191–92, 465n reflection of radio waves, 176–77, 187 turbulence in, 183 Iran, 3, 299, 310, 378 Iran Deal, 378 Iraq, disintegration after Iraq War, 348, 518n Iraq Veterans Against the War (IVAW), 410n Iraq War American troops in, 24–25, 416nn antiwar movement, 10, 410n battle for Baghdad, 19–20, 348 costs of, 25, 416–17n Global Positioning System (GPS) use in, 336, 346, 348 Iraqi civilian deaths, 25, 416n military deaths and injuries, 25, 416n military satellites and, 10, 19 Operation Iraqi Freedom, 16–17, 19, 24, 197, 346–47 organizational improvements, 346–48 private contractors in, 24–25, 416n reasons for war, 11, 336, 515n space technology advancements and, 10, 344 use of military force authorized by Congress, 10–11, 410n US “troop surge,” 34 “victory” declared, 348, 518n Iraq War: Strategy, Tactics, and Military Lessons, The (Cordesman), 348 isba, 73 Ishango bone, 420n ISIS (Islamic State of Iraq and Greater Syria), 34, 514–15n Isle of Man, 71, 72 Israel, ASATs (antisatellite weapons), 259 ISR (intelligence, surveillance, and reconnaissance), 157–59, 204 ITAR (International Traffic in Arms Regulations), 374, 375, 376 It Can’t Happen Here (Lewis), 274, 315 James Webb Space Telescope, 23, 232, 233, 246–47, 533n jamming, 260, 333, 515n, 516n Jansky, Karl, 178–79, 180, 463n Japan Christianity banned in, 111 education and life expectancy, 519n firebombing of Tokyo, 301, 304 Hiroshima, 263, 301, 302, 303, 457n, 474n, 505n increasing civilian space workforce, 22, 27 and International Space Station, 352, 355, 365, 368, 520n Kibo space laboratory, 355, 368 microwave radar in World War II, 189 military spending, 353, 519n Nagasaki, 111, 263, 301, 302, 303, 474n, 505n Pearl Harbor attack in World War II, 189, 466–67n rocket development, 264, 355 Space Basic Law, 356 space program, 354–56 space spending, 354, 520n telescopes in seventeenth century, 111 Jasons, 154–55 JAXA (Japan Aerospace Exploration Agency), 32, 354–55, 520n, 533n J Dollond & Son, 130 Jena, Germany, 130, 131–32, 139, 454n Jerome, Aaron B., 126–27 João II (king), 83 Jodrell Bank Observatory, 181, 183, 191–92, 209–13, 468n see also Mark I radio telescope Johnson, Chalmers, 35 Johnson-Freese, Joan alarming US space assets, 300, 504–5n China’s space program, 373, 374, 376–77 connectivity and national security, 350 dual-use satellites, 159 International Space Station, 368 space shuttle as ASAT, 258 US space dominance prospects, 32, 396 Johnson, Lyndon B.


pages: 661 words: 169,298

Coming of Age in the Milky Way by Timothy Ferris

Albert Einstein, Albert Michelson, Alfred Russel Wallace, anthropic principle, Arthur Eddington, Atahualpa, Cepheid variable, classic study, Commentariolus, cosmic abundance, cosmic microwave background, cosmological constant, cosmological principle, dark matter, delayed gratification, Eddington experiment, Edmond Halley, Eratosthenes, Ernest Rutherford, Garrett Hardin, Gary Taubes, Gregor Mendel, Harlow Shapley and Heber Curtis, Harvard Computers: women astronomers, Henri Poincaré, invention of writing, Isaac Newton, Johannes Kepler, John Harrison: Longitude, Karl Jansky, Lao Tzu, Louis Pasteur, Magellanic Cloud, mandelbrot fractal, Menlo Park, Murray Gell-Mann, music of the spheres, planetary scale, retrograde motion, Richard Feynman, Search for Extraterrestrial Intelligence, Searching for Interstellar Communications, source of truth, Stephen Hawking, Thales of Miletus, Thomas Kuhn: the structure of scientific revolutions, Thomas Malthus, time dilation, Wilhelm Olbers

Observers in motion experience a slowing in the passage of time, as well: An astronaut traveling at 90 percent of the velocity of light would age only half as fast as her colleagues back home, so that at, say, a twentieth class reunion of interstellar astronauts, those who had served the most aboard relativistic spacecraft would be the youngest. Mass, too, is rendered plastic within the framework of the light beams; objects approaching the speed of light increase in mass. The effects of relativistic time dilation, mass increase, and change in dimension are minute at ordinary velocities like that of the earth in its orbit or the sun through space (which is why it had not been noticed sooner) but become pronounced as speeds increase, and go to infinity at the speed of light. If the earth could be accelerated to the velocity of light (a feat that would require infinite energy to achieve) it would contract into a two-dimensional wafer of infinite mass, on which time would come to a stop—which is one way of saying that acceleration to light speed is impossible.

Johnson kicked in his famous refutation of Bishop Berkeley, and have been confirmed in scores of experiments. The relativistic increase in the mass of particles moving at nearly the velocity of light is not only observed in particle accelerators, but is what gives the speeding particles most of their punch. Relativistic time dilation has been tested by flying atomic clocks around the world in commercial aircraft; the clocks were found to run slow by just the tiny amount the theory specifies. A NASA ground controller once threatened to dock astronauts in space a fraction of a penny of their flight pay, to compensate for the decrease in the passage of time they experienced as a result of their velocity in orbit.

.), 124 satellites of, 88, 90, 158, 179 Kaluza, Theodor, 332 Kaluza-Klein theory, 332 Kant, Immanuel, 75, 143, 144–148, 150, 161, 246 Kelvin, Lord, 186, 246, 247–248, 249, 250, 280, 282 Kepler, Johannes, 66, 69, 71, 74–82, 84, 107, 136, 167, 182, 205, 346 astronomical unit estimated by, 125 date of Creation estimated by, 220 Galileo and, 94–96, 97, 98 mean distances of planets from the sun as measured by, 124 solar system and, 75, 78–82, 123 Kepler’s laws, 79–81 inverse-square law and, 112–113, 114, 115, 117 Newton’s laws and, 81, 108n, 112–113, 115 Keynes, John Maynard, 104 Kirchhoff, Gustav, 164–165 Klein, Oskar, 332 Kopernik, Mikolai, see Copernicus, Nicolaus Koran, the, 43 Lamarck, Jean-Baptiste de, 236 Lamarckism, 236 Lambert, Johann Heinrich, 144, 149–150, 161 Laplace, Pierre-Simon de, 161, 290–291 Large Magellanic Cloud, 70, 175, 327 Law of falling bodies, 84, 90–94 Law of universal gravitation, 81 Laws of thermodynamics, 247 Lead, 279 Leavitt, Henrietta Swan, 169–170, 171, 172, 258 Le Gentil, Guillaume, 133–134 Lemaître, Georges, 210–211, 212, 214, 274 Leptons, 294–296, 350 Light as electromagnetic field, 187n, 188 velocity of, 179–180 Light-year, 38 Linde, Andrei, 393–394 Linear time, 220–225 Lithium, 278, 343 Little Dipper, 57 Lobachevski, Nikolai Ivanovich, 199 Local Group of galaxies, 175 Local symmetry, 309–310 Locke, John, 118, 119, 223 Longitude, determination of, 128–130 Lookback time, 174 Lorentz, Hendrik Antoon, 181, 182, 191, 197, 203 Lorentz contractions, 181–182 special theory of relativity and, 181, 191 Lucretius, 33, 90n, 201, 369 Luther, Martin, 67, 369 Lyell, Charles, 217, 225, 226–229 Darwin and, 229, 231, 232, 239, 242, 243, 244 Mach, Ernst, 190–191, 386 Magellan, Ferdinand, 48, 56n, 59 Magellanic Clouds, 70, 169–170, 171, 175, 327 Magnesium, 165, 272 Magnetic monopoles, 356–357 Malthus, Thomas, 237 Many body problem, 121 Mars, 117 Kepler’s study of, 78–79 life on, 394 mean distance from the sun (est.), 124 measurement of diameter of, 125 retrograde motion of, 24, 25 spacecraft mission to, 371 triangulation of, 126, 130 Mason, Charles, 132–133 Mass inertia and, 193–195, 196 Newton’s laws and, 116–117 relativistic time dilation and, 192–193 Mathematical Syntaxis (Ptolemy), 28–29 Matter building blocks of, 294–296 electromagnetism and, 193 Maury, Antonia, 258, 259 Maxwell, James Clerk, 10, 185–188, 190, 255 Maxwellian velocity distribution theory, 263 Medici, Cosimo de, 95, 96 Mendel, Gregor, 242 Mercury, 23, 68, 279 death of the sun and, 270 mean distance from the sun (est.), 124 transit of, 131 Messier, Charles, 157 Meteorites, 252 Michelson, Albert, 180, 182 Michelson-Morley experiment, 11, 180–181, 188 aether drift theory and, 188, 192 Micrometry, 125 Microwave radiotelescope, 213, 347 Milky Way galaxy, 48, 96, 144, 145, 146, 149, 152, 161, 162 big bang and, 272–273 dark nebulae in, 144, 158 diameter of, 171 early-universe theory of, 341 ecology of, 266–267 elements in, 277 galaxies beyond, 175 Galileo’s observation of, 89, 90 location in the solar system of, 168–175 spectroscopy and, 166 spiral arms of, 153, 174 Milton, John, 76, 83, 101 Mimas (satellite of Saturn), 156 Minkowsky, Hermann, 197–198 Moon, 22 Galileo’s observation of, 88, 90 Newton’s laws of gravitation and, 107 Moon rocks, 252 Morrison, Philip, 371 Music, symmetries in, 304–305 Mutuality of gravitation, 117–118 NASA’s interstellar spacecraft study, 375 Natural selection theory of evolution, see Darwinism Navigation astronomy as tool for, 20–21, 47–49, 52 determination of longitude and, 128–130 Nebulae, 151–152 bright, 143–144 elliptical, 144, 146, 148, 152, 161–162, 165 Herschel’s study of, 150–159 island universe theory of, 161, 171, 172, 173 nature of, 144 planetary, 143, 157 spiral, 144, 162, 165–166 Nebular hypothesis, 161, 162, 165–166 defects in, 166–173 Ne’eman, Yuval, 311 Neoplatonism, 64, 65 Networking of interstellar communications, 375–380 Neutrino decoupling, 344 Neutrinos, 264, 265, 327, 344 Neutrons, 256 as fermions, 292 quarks and, 296, 338, 340 symmetry and, 307 Neutron star, 279 Newton, Humphrey, 113, 115–116 Newton, Isaac, 101, 103–122, 127, 128, 152, 161 the calculus invented by, 106, 108–110 date of Creation estimated by, 220 Einstein and, 177, 178, 183, 184, 193n gravitation and, 103, 107–109, 113–118, 120–121, 177 inertia and, 34, 94, 116–117, 177 Kepler’s third law and, 81, 108n, 112–113, 115 the Principia of, 103, 115–118, 119, 120–121 reflecting telescope of, 110–112 stellar distances measured by, 136 Newton’s first law, 116–117 Newton’s second law, 117 Newton’s third law, 117 Nickel, 277 Nitrogen-14, 251 Noneuclidean geometries, 198, 199 Novikov, Igor, 280 Nuclear energy, 248 Nuclear forces, see Strong nuclear force; Weak nuclear force Nuclear fusion, 248, 252–254, 367 See also Stellar nuclear fusion Nuclear physics, 211–212 Nuclear weapons, 252–254 Nucleons, 293, 294 Observational astrophysics, 168 Olbers, Wilhelm, 201n Olbers’s paradox, 201n Oldenburg, Henry, 111, 112 “On the Electrodynamics of Moving Bodies” (Einstein), 193 On the Heavens (Aristotle), 28, 69 On the Revolutions (Copernicus), 63, 64, 65, 66, 67–68, 84, 98 Öpik, Ernst, 275–276 Oppenheimer, Robert, 279, 310 Optics, 110, 163, 187 Oresme, Nicole, 64–65 Origin of Species, The (Darwin), 68, 116, 236, 242, 243–244, 245, 248 Origin of the universe, see Cosmogony Orion Nebula, 157 Oxygen, 272 Pangenesis theory of Darwin, 242 Parallax (triangulation), 125–126, 127, 130 of the stars, 136–141 Parity violation in the weak nuclear force, 313 Particle physics -cosmology link, 335–348 time and, 337–340 Pauli, Wolfgang, 292, 310, 333 Pauli exclusion principle, 292, 293 PEP accelerator, 333 PETRA accelerator, 333 Photinos, 333 Photon decoupling, 343 Photons, 258, 264–265, 318, 337 early-universe theory and, 343 released by the big bang, 212n, 213, 214 Pi, value of, 40 Pi mesons, 318 Planck, Max, 183, 193, 258, 286 Einstein and, 204n Planetary nebulae, 143, 157 Planetesimals, 167n Planets, 22–23 Copernicus and, 68 elliptical orbit of, 66 extrasolar, 394–395 Kepler’s laws and, 79–81 mean distances from the sun (est.), 124 measuring distances via micrometry and triangulation, 125–126, 127 Newton’s laws and, 107, 117, 120–121 retrograde motion of, 23, 24, 25, 26–27 spacecraft missions to, 370, 371 transit of, 130–136 See also names of planets Plato, 19, 25–26, 27, 31, 62, 64, 65, 75, 145, 217 Pleiades (star cluster), 259, 263 Hertzsprung-Russell diagram for, 269–270 Plutarch, 33, 39, 40 Poincaré, Henri, 181–182, 193, 201 Polaris (North Star), 57 Pole star, 52 Political power, use of astronomy for, 22 Polo, Marco, 47, 49–50, 54 Popper, Karl, 383 Portable telescopes, 163 Positrons, 308 Pound, James, 137, 153 Precession of equinoxes, 23n Primordial atom, 211, 212 Principia (Newton), 103, 115–118, 120–121 publication of, 118–119, 120 Printing press, invention of, 62–63 Probes in interstellar flight, 374–375, 376 Project Ozma (SETI experiment), 372 Proton accelerators, 319–326 Proton-antiproton collider, 324–326 Proton-proton chain reaction for stellar nuclear fusion, 263–265, 272, 278 Protons, 262, 264–265 as fermions, 292 half-life of, 327 heat of stars and, 260–261 penetration of the Coulomb barrier by, 262, 264–265 quarks and, 338, 340 symmetry and, 307 Ptolemy, Claudius, 28–31, 33, 34, 38, 40, 62, 63, 69, 72, 124, 145 Islamic astronomy and, 43 Pythagoras, 35, 217 Pythagorean doctrine of celestial harmony, 75–77 Q and A time for interstellar radio signals, 376, 377, 378 Quantum chromodynamics (QCD), 297, 311, 312, 313 Quantum electrodynamics (QED), 297, 315–316 Quantum field theory relativistic, 297, 337 string theory and, 328 symmetry and, 312–313 Quantum genesis hypothesis, 351, 362–365 Quantum indeterminacy, 287–288 Einstein and, 290–291 proton action and, 262 quantum genesis hypothesis and, 365 Quantum leap, 288 Quantum mechanics, 200, 257 string theory and, 330, 331 Quantum numbers, 31 Quantum physics, 178, 183, 186, 200, 286–299, 367 four fundamental forces in, 293–294, 295 standard model theories for, 292–299 symmetry and, 307–309 Quantum principle, 286–287 Quantum tunneling, 262–263 Quantum vacuum, 351–352 Quarks, 293, 294–295, 350 antiquarks and, 344 big bang and, 338, 339, 340 inflationary universe hypothesis and, 360 symmetry and, 312 Quasars, 174, 390 Radioactive decay, 293 Radioactivity, 248, 249–254, 255, 256 Radio astronomy, 213–214 Radiometric age-dating, 250–252 age of the solar system by, 266 Radio telescopes, 213, 347 SETI projects and, 371–372, 374, 376 Radium, 249, 250 Red giant stars, 269, 270 Redshift-distance relation of galaxies, 207–208, 209–211, 214 Reflecting telescope, 110–112, 154, 168 Refracting telescope, 152–157, 158 Relativistic quantum field theories, 297, 337 Relativistic time dilation, 192–193 Relativity (term), 193, 285–286 See also General theory of relativity; Special theory of relativity Renaissance, 47–59 Retrograde motion of planets, 23, 24, 25 Eudoxus and, 26–27 Roman Catholic Church Copernicus’s heliocentric theory and, 67 persecution of Galileo by, 11, 84, 96–100 Rubbia, Carlo, 322–323, 324–326 Russell, Henry Norris, 168, 259–260, 261 Rutherford, Ernest, 249–250, 256, 282 Salam, Abdus, 313, 314, 316, 317, 321, 326 Sandage, Allan, 174, 351 Saturn, 23, 43, 73, 117 mean distance from the sun (est.), 124 Saturn (cont.)


pages: 351 words: 111,121

Between the Strokes of Night by Charles Sheffield

life extension, nuclear winter, time dilation

There’s no way that the Argo’s engines can slow us down enough for a Gulf City rendezvous.” Sy shook his head. “My bet is we don’t need to worry about that. If they could speed us up without our knowing it, they can slow us down the same way. I wonder just how fast we’re moving. There has to be significant time dilation. Eva, can you get a handle on that, see what sort of a time compression factor we can look forward to? We’re not just going home — we’re going home in style.” Sy, rarely for him, was showing a little excitement. Everyone else, with the possible exception of Korwin, was delighted to be racing home at such high speed.

Even when the nature of the favor, as an accelerated return to Gulf City, was recognized, its magnitude had yet to be measured. The result, reported by Eva Packland and Gus Eldridge, staggered everyone — even the phlegmatic Sy. “Ninety-nine point nine nine seven percent of light-speed,” he said. “Let’s see now.” He entered a couple of numbers into his own hand-held. “That gives us a time dilation factor of almost a hundred and thirty. Shipboard travel time back to Gulf City will be less than seventeen years. Which means just three days in S-space. We’ll be there before we know it.” “And then what?” Dan Korwin seemed in a state of permanent rage. The loss of Judith Niles had left a leadership gap, which Korwin obviously felt best qualified to fill.

We spent most of the trip out in T-state or cold sleep, so not much subjective time passed for us, but we knew that back here on Gulf City more than seven S-years would flash by while we were on the way there. It would take another S-year for us to return, so far as people here were concerned — our time dilation on the way back because of relativistic effects did not apply to them at all. “We knew all this; knew, no matter what happened, that so far as anyone on Gulf City was concerned we might be gone for ten S-years, allowing a reasonable span for us to explore Urstar and try to discover what had happened there.


pages: 208 words: 70,860

Paradox: The Nine Greatest Enigmas in Physics by Jim Al-Khalili

Albert Einstein, Albert Michelson, anthropic principle, Arthur Eddington, butterfly effect, clockwork universe, complexity theory, dark matter, Edmond Halley, Edward Lorenz: Chaos theory, Ernest Rutherford, Henri Poincaré, Higgs boson, invention of the telescope, Isaac Newton, Johannes Kepler, Laplace demon, Large Hadron Collider, luminiferous ether, Magellanic Cloud, Olbers’ paradox, Pierre-Simon Laplace, Schrödinger's Cat, Search for Extraterrestrial Intelligence, The Present Situation in Quantum Mechanics, time dilation, Wilhelm Olbers

But even at the much more modest speed of, say, the Apollo Moon mission spacecrafts (about 40,000 kilometers per hour), the effect on time is still there, with the traveling clocks and mission control clocks falling out of sync by nanoseconds every second—tiny differences too small to need to be taken into account, but certainly measurable. We will return briefly to this example in a little while. But let’s quickly look at another real-world example, where this effect is important (we will come on to one more a bit later). The slowing down of time in high-speed travel is known as “time dilation” and is routinely taken into account in physics experiments, particularly those in which subatomic particles are accelerated in “atom smashers” such as the Large Hadron Collider at CERN in Geneva. There, particles can reach speeds so close to that of light that if such “relativistic” effects were not taken into account, the experiments would not make any sense.

Since the watch is now higher up it will feel a slightly weaker gravitational pull and run a little faster. This effect is real, but so tiny as to make the exercise rather pointless. For instance, to make up just one second I would have to keep my arm aloft for several hundred million years! In some situations, the two types of time dilation effect (due respectively to special and general relativity) can act against each other. Consider two clocks, one on the ground and one in a satellite in orbit around the Earth. Which one will be running more slowly? To the clock on the ground, the high-speed motion of the clock in orbit should be making it run slower, while the fact that it is in free fall around the Earth and therefore not feeling any gravity should be making it run faster.


pages: 635 words: 186,208

House of Suns by Alastair Reynolds

autonomous vehicles, cosmic microwave background, data acquisition, disinformation, gravity well, megastructure, planetary scale, space junk, sparse data, time dilation

There are some modifications that help me process memories and the strands of my fellow shatterlings, but Abigail never touched the deep architecture. Our minds just aren’t engineered to experience that much time in the raw.’ ‘You would go mad.’ ‘I’d need help.’ ‘You must wonder how we have coped. It is known that curators are very old, very long-lived. Unlike you, unlike the late Rimrunners, we do not have the luxury of time-dilation to make the centuries fly past.’ ‘You appear to be managing well enough.’ ‘You would presume to know?’ ‘The mere continued existence of the Vigilance is evidence that you have overcome the difficulties of extreme longevity. No other stellar-based culture has endured as long.’ ‘There would be no point in the Vigilance if it was ephemeral.

‘We could have stopped them, if it came to that.’ ‘Not necessarily. If a civilisation built a fleet and launched it towards Andromeda, there’s no guarantee that the Lines would have been able to neutralise it before it arrived. And even if the turnover civilisation perished, the fleet would still be on its way, protected by time-dilation. Nothing would have been able to catch up with it, if it was moving sufficiently close to light.’ ‘Fine, so there’s a case for secrecy. But turnover civilisations aren’t stupid. Some of them would have made their own observations of Andromeda, and seen the same evidence of Prior manipulation.’

By then, Abigail and the other Line founders had already shattered themselves into the likes of us, choosing one pathway to immortality, and had begun their knowledge-thirsty spread into an empty galaxy. Perhaps others had already embarked on the long process of change that would turn them into the curators of the Vigilance, choosing a different pathway. For Valmik, neither shattering, time-dilation nor biological transformation offered sufficient guarantees. He wished instead to make himself into a machine, so that his consciousness might be embodied in something as close to indestructible as physics allowed. Neurone by neurone, he allowed his brain to be supplanted by mechanical parts. Since the process was gradual - akin to the continuous redevelopment of a city, rather than sudden demolition and replacement - the man felt no change in his consciousness between the replacement of one neurone and the next.


pages: 279 words: 75,527

Collider by Paul Halpern

Albert Einstein, Albert Michelson, anthropic principle, cosmic microwave background, cosmological constant, dark matter, Dr. Strangelove, Ernest Rutherford, Gary Taubes, gravity well, Herman Kahn, Higgs boson, horn antenna, index card, Isaac Newton, Large Hadron Collider, Magellanic Cloud, pattern recognition, Plato's cave, Richard Feynman, Ronald Reagan, statistical model, Stephen Hawking, Strategic Defense Initiative, time dilation

Einstein would devote much of his youthful creativity to resolving this seeming contradiction. Einstein’s special theory of relativity, published in 1905, cleared up this mystery. He modified Newtonian mechanics through extra factors that stretch out time intervals and shrink spatial distances for travelers moving close to light speed. These two factors—known respectively as time dilation and length contraction—balance in a way that renders the measured speed of light the same for all observers. Strangely, they make the passage of time and the measurement of length dependent on how fast an observer happens to be moving, but that’s the price Einstein realized he had to pay to reconcile Maxwell’s equations with the physics of motion.

symmetry origins of the universe and clues in Standard Model and concept of breaking of synchrotrons early examples of fixed-target in Superconducting Super Collider (SSC) Szilard, Leo tau leptons tau neutrino tauons Teller, Edward Tesla coils Tevatron, Fermi National Accelerator Laboratory Texas Accelerator Center Texas National Research Laboratory Commission (TNRLC) Thomson, J. J. (Joseph John) Bohr and at Cavendish Laboratory “plum pudding” model of atoms of research on elementary particles by Thomson, Thomas Thonnard, Norbert ’t Hooft, Gerard thorium Tigner, Maury time, as the fourth dimension time dilation time-reversal invariance Tomonaga, Sin-Itiro top quarks TOTEM (TOTal Elastic and diffractive cross-section Measurement) Townshend, Paul transformers Trilling, George Trinity test, Manhattan Project tritium true vacuum Turner, Michael Tuve, Merle UA1 (Underground Area 1) UA2 (Underground Area 2) Uhlenbeck, George ultraviolet catastrophe ultraviolet radiation uncertainty principle U.S.


pages: 504 words: 139,137

Efficiently Inefficient: How Smart Money Invests and Market Prices Are Determined by Lasse Heje Pedersen

activist fund / activist shareholder / activist investor, Alan Greenspan, algorithmic trading, Andrei Shleifer, asset allocation, backtesting, bank run, banking crisis, barriers to entry, Bear Stearns, behavioural economics, Black-Scholes formula, book value, Brownian motion, business cycle, buy and hold, buy low sell high, buy the rumour, sell the news, capital asset pricing model, commodity trading advisor, conceptual framework, corporate governance, credit crunch, Credit Default Swap, currency peg, currency risk, David Ricardo: comparative advantage, declining real wages, discounted cash flows, diversification, diversified portfolio, Emanuel Derman, equity premium, equity risk premium, Eugene Fama: efficient market hypothesis, financial engineering, fixed income, Flash crash, floating exchange rates, frictionless, frictionless market, global macro, Gordon Gekko, implied volatility, index arbitrage, index fund, interest rate swap, junk bonds, late capitalism, law of one price, Long Term Capital Management, low interest rates, managed futures, margin call, market clearing, market design, market friction, Market Wizards by Jack D. Schwager, merger arbitrage, money market fund, mortgage debt, Myron Scholes, New Journalism, paper trading, passive investing, Phillips curve, price discovery process, price stability, proprietary trading, purchasing power parity, quantitative easing, quantitative trading / quantitative finance, random walk, Reminiscences of a Stock Operator, Renaissance Technologies, Richard Thaler, risk free rate, risk-adjusted returns, risk/return, Robert Shiller, selection bias, shareholder value, Sharpe ratio, short selling, short squeeze, SoftBank, sovereign wealth fund, statistical arbitrage, statistical model, stocks for the long run, stocks for the long term, survivorship bias, systematic trading, tail risk, technology bubble, time dilation, time value of money, total factor productivity, transaction costs, two and twenty, value at risk, Vanguard fund, yield curve, zero-coupon bond

I respect Abby, but she was a very different kind of analyst than we were. But we did it, she got it, and gave us the thumbs up. LHP: What else is different in the real world? CSA: Well, the single biggest difference between real world and academia is—this sounds over scientific—time dilation. I’ll explain what I mean. This is not relativistic time dilation as the only time I move at speeds near light is when there is pizza involved. But to borrow the term, your sense of time does change when you are running real money. Suppose you look at a cumulative return of a strategy with a Sharpe ratio of 0.7 and see a three-year period with poor performance.

The tech bubble was a period when value was strongly out of favor and momentum helped, but not nearly enough. It turns out we timed the launch of our business and our first fund right before the start of the tech bubble, literally just before the start of its really crazy phase. Remember the idea behind time dilation I mentioned before? Our tough start lasted about 18 months, but it felt like a lifetime. LHP: How did investors react to the tough start? CSA: Many of our investors stuck with us, especially those who really understood our process, and we showed them lots of evidence that the Internet valuations didn’t make sense and that, going forward, our investments looked even better.


pages: 404 words: 131,034

Cosmos by Carl Sagan

Albert Einstein, Alfred Russel Wallace, Apollo 11, Arthur Eddington, clockwork universe, dark pattern, dematerialisation, double helix, Drosophila, Edmond Halley, Eratosthenes, Ernest Rutherford, germ theory of disease, global pandemic, invention of movable type, invention of the telescope, Isaac Newton, Johannes Kepler, Lao Tzu, Louis Pasteur, luminiferous ether, Magellanic Cloud, Mars Rover, Menlo Park, music of the spheres, pattern recognition, planetary scale, Plato's cave, Search for Extraterrestrial Intelligence, spice trade, Suez canal 1869, Thales and the olive presses, Thales of Miletus, time dilation, Tunguska event

If you travel toward the observer at almost the speed of light, you will become enveloped in an eerie chromatic radiance: your usually invisible infrared emission will be shifted to the shorter visible wavelengths. You become compressed in the direction of motion, your mass increases, and time, as you experience it, slows down, a breathtaking consequence of traveling close to the speed of light called time dilation. But from the standpoint of an observer moving with you—perhaps the scooter has a second seat—none of these effects occur. These peculiar and at first perplexing predictions of special relativity are true in the deepest sense that anything in science is true. They depend on your relative motion.

A speed is a distance divided by a time. Since near the velocity of light we cannot simply add speeds, as we are used to doing in the workaday world, the familiar notions of absolute space and absolute time—independent of your relative motion—must give way. That is why you shrink. That is the reason for time dilation. Traveling close to the speed of light you would hardly age at all, but your friends and your relatives back home would be aging at the usual rate. When you returned from your relativistic journey, what a difference there would be between your friends and you, they having aged decades, say, and you having aged hardly at all!

We do not have fusion reactors yet, but they are confidently expected in the new few decades. Orion and Daedalus might travel at 10 percent the speed of light. A trip to Alpha Centauri, 4.3 light-years away, would then take forty-three years, less than a human lifetime. Such ships could not travel close enough to the speed of light for special relativistic time dilation to become important. Even with optimistic projections on the development of our technology, it does not seem likely that Orion, Daedalus or their ilk will be built before the middle of the twenty-first century, although if we wished we could build Orion now. For voyages beyond the nearest stars, something else must be done.


pages: 315 words: 89,861

The Simulation Hypothesis by Rizwan Virk

3D printing, Albert Einstein, AlphaGo, Apple II, artificial general intelligence, augmented reality, Benoit Mandelbrot, bioinformatics, butterfly effect, Colossal Cave Adventure, Computing Machinery and Intelligence, DeepMind, discovery of DNA, Dmitri Mendeleev, Elon Musk, en.wikipedia.org, Ernest Rutherford, game design, Google Glasses, Isaac Newton, John von Neumann, Kickstarter, mandelbrot fractal, Marc Andreessen, Minecraft, natural language processing, Nick Bostrom, OpenAI, Pierre-Simon Laplace, Plato's cave, quantum cryptography, quantum entanglement, Ralph Waldo Emerson, Ray Kurzweil, Richard Feynman, Schrödinger's Cat, Search for Extraterrestrial Intelligence, Silicon Valley, Stephen Hawking, Steve Jobs, Steve Wozniak, technological singularity, TED Talk, time dilation, Turing test, Vernor Vinge, Zeno's paradox

Of course, Scott didn’t go very fast or very far when compared to the speed of light or possible astronomical distances (at 28,000 km/hr, this was less than 1 percent of the speed of light). Atomic clocks, which are synchronized to sub-milliseconds, have been taken up in spaceships and have proven that time dilation is real—they too have come back out of sync with their counterparts that stayed on Earth. An unexpected implication of the theory of relativity is that there is no way to tell if two things are actually simultaneous. It really depends on the inertial reference frame of the observer. One person who is close to both events might view two events as happening simultaneously, while another who views the two events from very different distances might need to wait for the speed of light to reach them—which might happen at different times.

If our 3D physical reality consists of pixels spread out virtually, and if we were to traverse all the pixels of this virtual universe, it would take us an unbelievably long time to get to any place interesting outside of our own solar system—even if we were to travel at the speed of light. The nearest star system, Alpha Centauri, is 4.5 light years away, and the Milky Way galaxy is approximately 100,000 light years across. Of course, with time dilation, traversing this distance might seem to take less time, but we wouldn’t be able to get back to the same point. This brings us to the idea of quantum entanglement. This is when two particles become “entangled,” meaning it is theoretically possible from the state of one particle to guess the state of the corresponding entangled particle instantaneously, even if it is far away.


pages: 356 words: 102,224

Pale Blue Dot: A Vision of the Human Future in Space by Carl Sagan

Albert Einstein, anthropic principle, Apollo 11, Apollo 13, cosmological principle, dark matter, Dava Sobel, Francis Fukuyama: the end of history, germ theory of disease, invention of the telescope, Isaac Newton, Johannes Kepler, Kuiper Belt, linked data, low earth orbit, military-industrial complex, Neil Armstrong, nuclear winter, planetary scale, power law, profit motive, remunicipalization, scientific worldview, Search for Extraterrestrial Intelligence, sparse data, Stephen Hawking, telepresence, time dilation

Careful and repeated observations show that his justly celebrated theory is an accurate description of how the world is made. Our commonsense intuitions can be mistaken. Our preferences don't count. We do not live in a privileged reference frame. One consequence of special relativity is time dilation—the slowing down of time as the observer approaches light speed. You can still find claims that time dilation applies to watches and elementary particles—and, presumably, to circadian and other rhythms in plants, animals, and microbes—but not to human biological clocks. Our species has been granted, it is suggested, special immunity from the laws of Nature, which must accordingly be able to distinguish deserving from undeserving collections of matter.


pages: 378 words: 111,369

Gateway by Frederik Pohl

blood diamond, gravity well, Magellanic Cloud, oil shale / tar sands, time dilation

The sherry is all he says it is, and I can feel the warmth of it expanding inside me. “Okay,” I say, setting the glass down. “Well. When I got back to Gateway they’d written the expedition off. We were almost a year overdue. Because we’d been almost inside the event horizon. Do you understand about time dilation?…Oh, never mind,” I say, before he can answer, “that was a rhetorical question. What I mean is, what happened was the phenomenon they call time dilation. You get that close to a singularity and you come up against the twin paradox. What was maybe a quarter of an hour for us was almost a year by clock time—clock time on Gateway, or here, or anywhere else in the nonrelativistic universe, I mean.


City Parks by Catie Marron

Berlin Wall, crony capitalism, Easter island, Fall of the Berlin Wall, Fellow of the Royal Society, Frank Gehry, Golden Gate Park, the High Line, time dilation, urban sprawl

Without real or imagined traces of time, without the inflection of memory, or of something that borrows the circuits of memory, and passes for memory, but may not be memory at all, we’ll never see, much less understand, what lies before us. It is time that confers meaning to the High Line; time is the film we bring to everything we wish to see when we hope to amplify what our eyes are seeing. Time dilates the senses. Time is about the footprint, not the foot; the luster, not the light; the resonance, not the sound, the trace, not the thing. Time is how we fantasize, privatize, and ultimately seize and understand the beauty of what lies around us. Then and now. When you lean against the High Line’s railing and stare at the view from what was the trellised old El, it is about time that you want to think.


pages: 125 words: 40,678

The Word for World Is Forest by Ursula K. le Guin

time dilation, trade route

Since arrival in orbit the Shackleton has been in daily communication with Terra, now 27 lightyears distant. The message does not take 54 years for delivery and response, as it does on an electromagnetic device. It takes no time. There is no more time-gap between worlds." "As soon as we came out of NAFAL time-dilatation into planetary space-time, here, we rang up home, as you might say," the soft-voice Commander went on. "And were told what had happened during the 27 years we were traveling. The time-gap for bodies remains, but the information lag does not. As you can see, this is as important to us as an interstellar species, as speech itself was to us earlier in our evolution.


pages: 436 words: 124,373

Galactic North by Alastair Reynolds

back-to-the-land, Buckminster Fuller, hive mind, information retrieval, Kickstarter, risk/return, stem cell, time dilation, trade route

Even if we didn’t have another ship to worry about, we were in more than enough trouble. We were too far out from Shiva-Parvati to get back again, and yet we were moving too slowly to make it to another system. Even if the engines kept working as they were now, we’d take far too long to reach relativistic speed, where time dilation became appreciable. At twenty-five per cent of the speed of light, what would have been a twenty-year hop before became an eighty-year crawl now . . . and that was an eighty-year crawl in which almost all that time would be experienced aboard ship. Across that stretch of time, reefersleep was a lottery.

Nonetheless I insisted on this one ridiculous circuit, convinced it would leave me eased. Most of these sleepers would stay aboard when we arrived in the Earth system. They were refugees from the Melding Plague, seeking sanctuary in the future. At the nearlight speeds this vessel attained between suns, large levels of time dilation would be experienced. Our clocks would grind to an imperceptible crawl. After thirty or forty years of shiptime, a mere six or seven hops between systems, more than a century would have elapsed on Yellowstone, enough time for eco-engineers to exorcise the biome of the Melding Plague. The sleepers we carried had elected not to risk spending the time in the planet’s community cryocrypts; in dilation sleep the effective time spent in reefers was less, and therefore their chances of completely safe revival were enormously increased.


pages: 150 words: 45,389

When Breath Becomes Air by Paul Kalanithi, Abraham Verghese

coherent worldview, delayed gratification, medical residency, scientific worldview, Silicon Valley, stem cell, time dilation

Part of the cruelty of cancer, though, is not only that it limits your time; it also limits your energy, vastly reducing the amount you can squeeze into a day. It is a tired hare who now races. And even if I had the energy, I prefer a more tortoiselike approach. I plod, I ponder. Some days, I simply persist. If time dilates when one moves at high speeds, does it contract when one moves barely at all? It must: the days have shortened considerably. With little to distinguish one day from the next, time has begun to feel static. In English, we use the word time in different ways: “The time is two forty-five” versus “I’m going through a tough time.”


pages: 459 words: 138,689

Slowdown: The End of the Great Acceleration―and Why It’s Good for the Planet, the Economy, and Our Lives by Danny Dorling, Kirsten McClure

"World Economic Forum" Davos, Affordable Care Act / Obamacare, Anthropocene, Berlin Wall, Bernie Sanders, Boeing 747, Boris Johnson, British Empire, business cycle, capital controls, carbon tax, clean water, creative destruction, credit crunch, Donald Trump, drone strike, Elon Musk, en.wikipedia.org, Extinction Rebellion, fake news, Flynn Effect, Ford Model T, full employment, future of work, gender pay gap, global supply chain, Google Glasses, Great Leap Forward, Greta Thunberg, Henri Poincaré, illegal immigration, immigration reform, income inequality, Intergovernmental Panel on Climate Change (IPCC), Internet of things, Isaac Newton, It's morning again in America, James Dyson, Jeremy Corbyn, jimmy wales, John Harrison: Longitude, Kickstarter, low earth orbit, Mark Zuckerberg, market clearing, Martin Wolf, mass immigration, means of production, megacity, meta-analysis, military-industrial complex, mortgage debt, negative emissions, nuclear winter, ocean acidification, Overton Window, pattern recognition, Ponzi scheme, price stability, profit maximization, purchasing power parity, QWERTY keyboard, random walk, rent control, rising living standards, Robert Gordon, Robert Shiller, Ronald Reagan, School Strike for Climate, Scramble for Africa, sexual politics, Skype, Stephen Hawking, Steven Pinker, structural adjustment programs, Suez crisis 1956, the built environment, Tim Cook: Apple, time dilation, transatlantic slave trade, trickle-down economics, very high income, wealth creators, wikimedia commons, working poor

As a student at Newcastle University in the 1980s, I once met a “time lord” whose job it was to ensure that the very early internet kept time to a fraction of a nanosecond. He rode a Harley-Davidson and worked in the sub-basement of Claremont Tower (I am ashamed to admit I was most impressed by his motorbike!). Today our measurements are so accurate that we can now tell when time itself slows down or speeds up due to time dilation, but even that little-known process was predicted by Einstein and first measured as long ago as 1938.13 How did we travel so very quickly, in just 282 years, from first measuring time with only rough accuracy with a pendulum to understanding that time itself was not constant? You can take six steps forward from 1656, each spanning forty-seven years, and marvel at the fact that at each step our measurement of time improved by at least one order of magnitude.

Stacy Taylor, “History of the Pendulum,” Sciencing, 24 April 2017, accessed 11 February 2019, https://sciencing.com/history-pendulum-4965313.html. 13. Sascha Reinhardt, Guido Saathoff, Henrik Buhr, Lars A. Carlson, Andreas Wolf, Dirk Schwalm, Sergei Karpuk, Christian Novotny, Gerhard Huber, Marcus Zimmermann, Ronald Holzwarth, Thomas Udem, Theodor W. Hänsch, and Gerald Gwinne, “Test of Relativistic Time Dilation with Fast Optical Atomic Clocks at Different Velocities,” Nature Physics, 11 November 2007, 861–64, https://www.nature.com/articles/nphys778. 14. This may have been somewhat easier to do in the 1960s with the aid of new hallucinogens, although Samuel Coleridge was already using opiates back in 1797 when he wrote the poem Kubla Khan, subtitled Or a Vision in a Dream.


pages: 511 words: 139,108

The Fabric of Reality by David Deutsch

Any sufficiently advanced technology is indistinguishable from magic, Arthur Eddington, Boeing 747, butterfly effect, coherent worldview, complexity theory, Computing Machinery and Intelligence, conceptual framework, cosmological principle, different worldview, Donald Knuth, Douglas Hofstadter, Eddington experiment, Georg Cantor, Gödel, Escher, Bach, Johannes Kepler, Occam's razor, phenotype, quantum cryptography, Richard Feynman, scientific worldview, Stephen Hawking, the scientific method, Thomas Kuhn: the structure of scientific revolutions, time dilation, Turing machine

For example, an astronaut who went on a round-trip involving acceleration to speeds close to that of light would experience much less time than an observer who remained on Earth. This effect is known as time dilation. By {290} accelerating enough, one can make the duration of the flight from the astronaut's point of view as short as one likes, and the duration as measured on Earth as long as one likes. Thus one could travel as far into the future as one likes in a given, subjectively short time. But such a trip to the future is irreversible. The return journey would require past-directed time travel, and no amount of time dilation can allow a spaceship to return from a flight before it took off. Virtual reality and time travel have this, at least, in common: they both systematically alter the usual relationship between external reality and the user's experience of it.


pages: 182 words: 51,816

Six Not-So-Easy Pieces: Einstein’s Relativity, Symmetry, and Space-Time by Richard P. Feynman, Robert B. Leighton, Matthew Sands

Albert Einstein, Henri Poincaré, Isaac Newton, Murray Gell-Mann, Richard Feynman, Richard Feynman: Challenger O-ring, time dilation

The only relevant question is whether the ideas are consistent with what is found experimentally. In other words, the “strange ideas” need only agree with experiment, and the only reason that we have to discuss the behavior of clocks and so forth is to demonstrate that although the notion of the time dilation is strange, it is consistent with the way we measure time. Finally, there is a third suggestion which is a little more technical but which has turned out to be of enormous utility in our study of other physical laws, and that is to look at the symmetry of the laws or, more specifically, to look for the ways in which the laws can be transformed and leave their form the same.


pages: 230 words: 63,891

Forever Free by Joe Haldeman

Albert Einstein, heat death of the universe, Magellanic Cloud, Occam's razor, time dilation

Their physical age went from late thirties to early fifties, in Earth years. The years here were three times as long. I guess people would eventually become used to the idea of starting school at 2, puberty before 4, majority at 6. But not my generation. I had been physically 32 when I got here, although if you counted from birth date, ignoring time dilation and collapsar jumps, I was 1,168 in Earth years. So I was 50 nowor "32 plus 6," as some vets said, trying to reconcile the two systems. The vets began to arrive, by ones, twos, and fours. Usually about fifty showed up, about a third of those within walking distance. One was an observer, with a holo recorder, who came from the capital city, Centrus.


pages: 257 words: 80,100

Time Travel: A History by James Gleick

Ada Lovelace, Albert Einstein, Albert Michelson, Arthur Eddington, augmented reality, butterfly effect, Charles Babbage, crowdsourcing, Doomsday Book, Eddington experiment, index card, Isaac Newton, John von Neumann, luminiferous ether, Marshall McLuhan, Norbert Wiener, pattern recognition, Plato's cave, pneumatic tube, Richard Feynman, Schrödinger's Cat, self-driving car, Stephen Fry, Stephen Hawking, telepresence, The future is already here, time dilation, Wayback Machine, wikimedia commons

His point is that acceleration and gravitation both slow the clocks, relativistically, so you could age a year or two on a spaceship and return home a century hence to marry your great-grandniece (as Tom Bartlett does in Robert Heinlein’s 1956 novel Time for the Stars). This is proven. GPS satellites have to compensate for relativistic effects in their very exact calculations. It’s hardly time travel, though. It is time dilation (per Einstein, Zeitdilatation). It’s an antiaging device.*2 And it’s a one-way street. There’s no going back to the past. Unless you can find a wormhole. “Wormhole” is John Archibald Wheeler’s word for a shortcut through the warped fabric of spacetime—a “handle” of multiply connected space. Every few years someone makes headlines by hailing the possibility of time travel through a wormhole—a traversable wormhole, or maybe even a “macroscopic ultrastatic spherically-symmetric long-throated traversable wormhole.”


Wonders of the Universe by Brian Cox, Andrew Cohen

a long time ago in a galaxy far, far away, Albert Einstein, Albert Michelson, Apollo 11, Arthur Eddington, California gold rush, Cepheid variable, cosmic microwave background, dark matter, Dmitri Mendeleev, Eddington experiment, Eyjafjallajökull, Ford Model T, heat death of the universe, Higgs boson, Isaac Newton, James Watt: steam engine, Johannes Kepler, Karl Jansky, Large Hadron Collider, Magellanic Cloud, Mars Rover, Neil Armstrong, Stephen Hawking, the scientific method, time dilation, trade route

This means that the peaks and troughs of the laser light beam are arriving more frequently than they did when they set off. So, from the point of view of someone on the ground, the clock above the ground will be running slightly fast. Is this true? Yes, it is. The effect is known as gravitational time dilation; gravity slows down time, so clocks close to the ground run slower than those in orbit. In the language of General Relativity, we might say that the presence of Earth bends spacetime near it such that time passes more slowly than it does far away. This is a very real effect and is one that has to be taken into account in the GPS satellite navigation system, which relies on precise timekeeping to measure distances.


pages: 266 words: 78,986

Quarantine by Greg Egan

cosmic microwave background, dark matter, disinformation, fudge factor, intermodal, pattern recognition, placebo effect, Schrödinger's Cat, time dilation, warehouse robotics

The Bubble presents an immaterial surface which behaves, in many ways, like a concave version of a black hole’s event horizon. It absorbs sunlight perfectly, and emits nothing but a featureless trickle of thermal radiation (far colder than the cosmic microwave background, which no longer reaches us). Probes which approach the surface undergo red shift and time dilation—but experience no measurable gravitational force to explain these effects. Those on orbits which intersect the sphere appear to crawl to an asymptotic halt and fade to black; most physicists believe that in the probe’s local time, it swiftly passes through The Bubble, unimpeded—but they’re equally sure that it does so in our infinitely distant future.


pages: 407 words: 90,238

Stealing Fire: How Silicon Valley, the Navy SEALs, and Maverick Scientists Are Revolutionizing the Way We Live and Work by Steven Kotler, Jamie Wheal

"World Economic Forum" Davos, 3D printing, Abraham Maslow, Alexander Shulgin, Alvin Toffler, augmented reality, Berlin Wall, Bernie Sanders, bitcoin, blockchain, Burning Man, Colonization of Mars, crowdsourcing, David Brooks, delayed gratification, disruptive innovation, driverless car, Electric Kool-Aid Acid Test, Elon Musk, en.wikipedia.org, Future Shock, Hacker News, high batting average, hive mind, How many piano tuners are there in Chicago?, hype cycle, Hyperloop, impulse control, independent contractor, informal economy, Jaron Lanier, John Markoff, John Perry Barlow, Kevin Kelly, Larry Ellison, lateral thinking, Mason jar, Maui Hawaii, McMansion, means of production, Menlo Park, meta-analysis, microdosing, military-industrial complex, mirror neurons, music of the spheres, off-the-grid, pattern recognition, Peter Thiel, PIHKAL and TIHKAL, prosperity theology / prosperity gospel / gospel of success, Ray Kurzweil, ride hailing / ride sharing, risk tolerance, science of happiness, selective serotonin reuptake inhibitor (SSRI), Silicon Valley, Silicon Valley billionaire, Silicon Valley startup, Skype, Steve Jobs, synthetic biology, TED Talk, time dilation, Tony Hsieh, urban planning, Virgin Galactic

There’s something happening [to viewers] on an objective level.” Research conducted at Stanford supports Jones’s hunch. A 2012 study found that encounters with perceptual vastness, be it the endless spiral of galaxies in the night sky or Jones’s’ larger-than-life projections, triggers a self-negating, time-dilating sense of awe. And this happens automatically—which means an encounter with Jones’s projections could be enough to drive subjects into a deeply altered state, willingly or not. In March 2015, Jones upped the impact of his work even further. Joining forces with a group of Russian monks living in Thailand (who, improbably, happened to be tech whizzes), he moved from projecting his art onto flat 2-D surfaces into fully immersive 3D experiences.


pages: 349 words: 27,507

E=mc2: A Biography of the World's Most Famous Equation by David Bodanis

Albert Einstein, Arthur Eddington, Berlin Wall, British Empire, dark matter, Eddington experiment, Ernest Rutherford, Erwin Freundlich, Fellow of the Royal Society, Henri Poincaré, Isaac Newton, John von Neumann, Kickstarter, Mercator projection, Nelson Mandela, pre–internet, Richard Feynman, Silicon Valley, Silicon Valley startup, Stephen Hawking, Thorstein Veblen, time dilation

It’s the people outside the car who seem slow, with hotel doormen seeming to lift their arms in laborious heaviness, then puffing out their cheeks like stately deep-sea fish whenever they blow a whistle to hail a taxi. These effects are summarized in relativity by saying that when someone watches an object recede away from them, that object will be seen to undergo mass dilation, length changes, and time dilation. The bystanders will see it in the car; the driver of the car, looking back, will see it in the bystanders. The first time one reads of this, it seems like nonsense. Even Einstein found it hard to accept—as with the inexplicable tension he felt in his long talk with Michele Besso, on the summer day when he was still Einstein and the Equation trying to work out these relations.


pages: 396 words: 96,049

Upgrade by Blake Crouch

bioinformatics, butterfly effect, cognitive dissonance, correlation does not imply causation, COVID-19, CRISPR, dark matter, deepfake, double helix, Douglas Hofstadter, driverless car, drone strike, glass ceiling, Google Earth, Gödel, Escher, Bach, Hyperloop, independent contractor, job automation, low earth orbit, messenger bag, mirror neurons, off grid, pattern recognition, phenotype, ride hailing / ride sharing, supervolcano, time dilation

The idea that the brain speeds up during stressful situations is a myth. When a person is afraid, their amygdala becomes more active, laying down extra memories that coincide with the normal memories of everyday life. It’s the richer, additional memories that give the illusion of time slowing down. But I suspected that, like me, Kara’s sense of time dilation was more than an illusion brought on by a fear reaction. With our sensory gating downgraded, stimuli would come flooding in during moments of intense focus. So long as our brains weren’t overwhelmed by the onslaught, this genuinely would allow us to anticipate and react at superhuman speed. “They’re not going to let what happened go,” I said.


pages: 1,263 words: 371,402

The Year's Best Science Fiction: Twenty-Sixth Annual Collection by Gardner Dozois

augmented reality, Bletchley Park, carbon tax, clean water, computer age, cosmological constant, David Attenborough, Day of the Dead, Deng Xiaoping, double helix, financial independence, game design, gravity well, heat death of the universe, jitney, John Harrison: Longitude, Kickstarter, Kim Stanley Robinson, Kuiper Belt, lolcat, Mahatma Gandhi, mass immigration, Neal Stephenson, orbital mechanics / astrodynamics, Paul Graham, power law, quantum entanglement, Richard Feynman, Richard Feynman: Challenger O-ring, Search for Extraterrestrial Intelligence, Skype, stem cell, theory of mind, time dilation, Turing machine, Turing test, urban renewal, Wall-E

The distortions it left in space-time advertised his position over most of a quadrant. Burn quick, burn hot and fast, get to light-speed if it meant reducing his reaction mass perilously close to the point where he would not have sufficient ever to brake. Then go dark, run silent and swift, coasting along in high time dilation where years passed in hours. Between wakings, Jedden dreamed. He dreamed down into the billions of lives, the dozens of races and civilizations that the Anpreen had encountered in their long migration. The depth of their history had stunned Jedden, as if he were swimming and, looking down, discovered beneath him not the green water of the lagoon but the clear blue drop of the continental shelf.

‘You know, I’m sure they’re speeding the days up. Not much, just a little every day, but definitely speeding them up. Time goes nowhere these days.’ Despite a surprisingly sophisticated matter-anti-matter propulsion system, the Aeo Taea fleet was limited to no more than ten percent of light-speed, far below the threshold where time dilation became perceptible. The crossing to the Destination—Aeo Taea was a language naturally given to Portentous Capitalizations, Fast Man had discovered—could only be made by generation ship. The Aeo Taea had contrived to do it in just one generation. The strangely slow messages the Anpreen had picked up from the fleet were no fluke of space-time distortion.

The drive field harmonics, the spectrum of the fusion flame, the timbre of the radar images that he so gently, kiss-soft, bounced off the pursuer’s hull, even the configuration he had glimpsed as the ship rounded the planet and launched missiles. This was the same ship that had hunted him down all the years. Deep mysteries here. Time dilation would compress his planned course to subjective minutes and Oga needed time to find an answer. The ship had known where he would go even as they bucked the stormy cape of the wandering neutron star. It had never even attempted to follow him; instead, it had always known that it must lay in a course that would whip it round to Tay.


pages: 349 words: 101,538

Just Here Trying to Save a Few Lives: Tales of Life and Death From the ER by Pamela Grim

clean water, crack epidemic, it's over 9,000, time dilation

It produces total paralysis, making it easier to intubate, that is, get the tube down into the trachea. However, if I couldn't get her intubated, she wouldn't be able to breathe on her own. I would be stuck, or rather Marilyn would be stuck. Paralyzed, without an airway, about to die. 82 percent…82 and holding. When you run a code, everyone moves as if they are running through water. Time dilates and what only takes a minute seems like hours. All that time. Alisa finally returned bearing the bottle of sux aloft. “A hundred milligrams,” I told her. The problem with sux is that it causes the stomach muscles to contract. More aspiration. There were ways to prevent this, but they all took time. 81…80.


pages: 414 words: 105,153

Ringworld by Larry Niven

dark matter, gravity well, Mercator projection, supervolcano, time dilation

“Because craft come from the home world, carrying news of technological innovations. We surmise that the Ringworlders have abandoned their home world.” “But the ships can still come in,” Louis said doggedly. “From the abandoned worlds! From centuries ago! Ramships are subject to relativity, to time dilation.” “You hope to find old spacemen trying to teach the old skills to savages who have forgotten them. And you may be right,” said Speaker. “But I weary of this structure, and the spaceport is very far. What else can I show you on the map screen?” Suddenly Louis asked, “How far have we come since we left the Liar?”


pages: 404 words: 107,356

The Future of Fusion Energy by Jason Parisi, Justin Ball

Albert Einstein, Arthur Eddington, Boeing 747, carbon footprint, carbon tax, Colonization of Mars, cuban missile crisis, decarbonisation, electricity market, energy security, energy transition, heat death of the universe, Intergovernmental Panel on Climate Change (IPCC), invention of the steam engine, ITER tokamak, Kickstarter, Large Hadron Collider, megaproject, Mikhail Gorbachev, mutually assured destruction, nuclear winter, performance metric, profit motive, random walk, Richard Feynman, Ronald Reagan, Stuxnet, the scientific method, time dilation, uranium enrichment

Wait a second … no, that’s not right at all. 1To achieve this speed, Juno supplemented its on-board propulsion with a “gravity-assist” slingshot maneuver around the Earth. 2We’d still recommend splurging for the emergency exit row seating. The extra leg room makes all the difference. 3Five years from the Earth’s perspective — the travelers would actually experience a much shorter journey due to time dilation, a consequence of Einstein’s special theory of relativity. 4Strictly speaking, by the definition of “traveling to a star system,” there would be solar energy. However, problems could still arise if the planet we hoped to colonize turned out to have weather similar to the UK. Imagine that! Might as well turn around and start heading back to Earth. 5To learn more about space travel (and fusion’s place in it), we recommend Entering Space by Robert Zubrin. 6This equation would need to be modified if external forces were present (e.g.


pages: 467 words: 114,570

Pathfinders: The Golden Age of Arabic Science by Jim Al-Khalili

agricultural Revolution, Albert Einstein, Andrew Wiles, Book of Ingenious Devices, colonial rule, Commentariolus, Dmitri Mendeleev, Eratosthenes, Henri Poincaré, invention of the printing press, invention of the telescope, invention of the wheel, Isaac Newton, Islamic Golden Age, Johannes Kepler, Joseph Schumpeter, Kickstarter, Large Hadron Collider, liberation theology, retrograde motion, scientific worldview, Silicon Valley, Simon Singh, stem cell, Stephen Hawking, the scientific method, Thomas Malthus, time dilation, trade route, William of Occam

Nevertheless, there are undeniable tensions between science and religion in some parts of the Muslim world that must be addressed. Anti-scientific attitudes are easy to find in Muslim societies and are now flourishing on the Internet, with thousands of elaborately designed Islamic websites purporting to prove that the Qur’an predicts the Big Bang, black holes, quantum mechanics, even the notion of relativistic time dilation. When I discuss this with Muslim colleagues I always tell them of a fascinating encounter I had with two imams at a religious madrassa in Isfahan in Iran a few years ago. They both told me the same thing: that the Qur’an is not a textbook on mathematics or physics, or on medicine or astronomy.


pages: 263 words: 121,207

Look To Windward by Iain M. Banks

gravity well, time dilation, VTOL

'Do you know there are people who've been sailing the Great River since the Orbital was completed?' 'Yes. A few are on their second circuit now. They call themselves the Time Travellers because, heading against the spin, they are moving less quickly than everybody else on the Orbital, and so incur a reduced relativistic time dilation penalty, negligible though the effect is.' Ziller nodded. The great dark eyes drank in the view. 'I wonder if anyone goes against the flow?' 'A few do. There are always some.' Kabe paused. 'None of them have yet completed a circuit of the entire Orbital; they would need to live a very long time to do so.


pages: 386 words: 113,709

Why We Drive: Toward a Philosophy of the Open Road by Matthew B. Crawford

1960s counterculture, Airbus A320, airport security, augmented reality, autonomous vehicles, behavioural economics, Bernie Sanders, Big Tech, Boeing 737 MAX, British Empire, Burning Man, business logic, call centre, classic study, collective bargaining, confounding variable, congestion pricing, crony capitalism, data science, David Sedaris, deskilling, digital map, don't be evil, Donald Trump, driverless car, Elon Musk, emotional labour, en.wikipedia.org, Fellow of the Royal Society, Ford Model T, gamification, gentrification, gig economy, Google Earth, Great Leap Forward, Herbert Marcuse, hive mind, Ian Bogost, income inequality, informal economy, Internet of things, Jane Jacobs, labour mobility, Lyft, mirror neurons, Network effects, New Journalism, New Urbanism, Nicholas Carr, planned obsolescence, Ponzi scheme, precautionary principle, Ralph Nader, ride hailing / ride sharing, Ronald Reagan, Sam Peltzman, security theater, self-driving car, sharing economy, Shoshana Zuboff, Silicon Valley, smart cities, social graph, social intelligence, Stephen Hawking, surveillance capitalism, tacit knowledge, tech worker, technoutopianism, the built environment, The Death and Life of Great American Cities, the High Line, time dilation, too big to fail, traffic fines, Travis Kalanick, trolley problem, Uber and Lyft, Uber for X, uber lyft, Unsafe at Any Speed, urban planning, Wall-E, Works Progress Administration

The life you have lived up to that point is no longer livable. However great the intellectual pleasures of black holes and equations, you suddenly have before you an unexpected cosmos that is deeply animal, an expanding universe that recedes from your present abilities and calls you forward: faster. Space-time dilates, and you are working in a different frame. After seven years of riding a bike with 35 horsepower every day, I bought a modern Yamaha with about 120. It was roughly like going from an Irish donkey cart to something nuclear powered, with the precision of a Swiss watch. The acceleration was nearly hallucinogenic, the cornering scalpel-like.


pages: 392 words: 122,282

Generation Kill by Evan Wright

Ayatollah Khomeini, Berlin Wall, Columbine, friendly fire, oil shale / tar sands, time dilation, working poor

Several more slice through the edges of the door frames. The shooting continues on both sides. Less than half an hour before, Colbert had been talking about stress reactions in combat. In addition to the embarrassing loss of bodily control that 25 percent of all soldiers experience, other symptoms include time dilation, a sense of time slowing down or speeding up; vividness, a starkly heightened awareness of detail; random thoughts, the mind fixating on unimportant sequences; memory loss; and, of course, your basic feelings of sheer terror. In my case, hearing and sight become almost disconnected. I see more muzzle flashes next to the vehicle but don’t hear them.


pages: 452 words: 126,310

The Case for Space: How the Revolution in Spaceflight Opens Up a Future of Limitless Possibility by Robert Zubrin

Ada Lovelace, Albert Einstein, anthropic principle, Apollo 11, battle of ideas, Boeing 747, Charles Babbage, Charles Lindbergh, Colonization of Mars, complexity theory, cosmic microwave background, cosmological principle, Dennis Tito, discovery of DNA, double helix, Elon Musk, en.wikipedia.org, flex fuel, Francis Fukuyama: the end of history, gravity well, if you build it, they will come, Internet Archive, invisible hand, ITER tokamak, James Webb Space Telescope, Jeff Bezos, Johannes Kepler, John von Neumann, Kim Stanley Robinson, Kuiper Belt, low earth orbit, Mars Rover, Mars Society, Menlo Park, more computing power than Apollo, Naomi Klein, nuclear winter, ocean acidification, off grid, out of africa, Peter H. Diamandis: Planetary Resources, Peter Thiel, place-making, Pluto: dwarf planet, private spaceflight, Recombinant DNA, rising living standards, Search for Extraterrestrial Intelligence, self-driving car, Silicon Valley, SoftBank, SpaceX Starlink, Strategic Defense Initiative, Stuart Kauffman, telerobotics, Thomas Malthus, three-masted sailing ship, time dilation, transcontinental railway, uranium enrichment, Virgin Galactic, Wayback Machine

As discussed above, the effective exhaust velocity of an antimatter photon rocket would be about 50 percent the speed of light, making flights at up to 90 percent of light speed theoretically possible. This would get a ship to Alpha Centauri in about five years, which would seem like three to the crew due to the effects of relativistic time dilation. But the society that launched such a mission would have to be one that was so rich that cost was simply not an issue. LIGHT SAILS Nearly four hundred years ago, the famous German astronomer Johannes Kepler observed that regardless of whether a comet is moving toward or away from the sun, its tail always points away from the sun.


pages: 415 words: 123,373

Inviting Disaster by James R. Chiles

air gap, Airbus A320, airline deregulation, Alignment Problem, Apollo 11, Apollo 13, Boeing 747, crew resource management, cuban missile crisis, Exxon Valdez, flying shuttle, Gene Kranz, Maui Hawaii, megaproject, Milgram experiment, Neil Armstrong, North Sea oil, Piper Alpha, Recombinant DNA, Richard Feynman, Richard Feynman: Challenger O-ring, risk tolerance, Ted Sorensen, time dilation

As Detox One pressed forward and Cari screamed for somebody to make it stop, and as Scott Gerlicher tried to hold the machine back from his wife and daughter by his own strength, the long nightmarish sequence ended. A pillar and doorway at the corner of the NSP building had finally trapped the van. Some witnesses said the horror lasted for more than a minute, but investigators reconstructed the entire event as lasting about six seconds. The time dilation illusion is common among people under extreme stress; when I was a passenger in a car crash at age fifteen I saw pieces of glass flying through the air in distinct, slow motion. The trail of destruction, from first tire mark to the gray bashed-in front fender, covered 88.857 feet. Pushed beyond the fender were Blake McCarty’s stroller, and the one holding Denise Keenan’s children.


pages: 1,171 words: 309,640

To Sleep in a Sea of Stars by Christopher Paolini

back-to-the-land, clean water, Colonization of Mars, cryptocurrency, dark matter, friendly fire, gravity well, heat death of the universe, hive mind, independent contractor, low earth orbit, mandelbrot fractal, megastructure, random walk, risk tolerance, time dilation, Vernor Vinge

And while rest mass in subluminal space is real, positive, and increases due to special relativity as v approaches c; in luminal space, rest mass is zero and v always = c; and in superluminal space, rest mass is imaginary at v=c, but becomes real, positive, and decreases when moving faster than c. An implication of this is the reversal of time dilation effects with regard to acceleration. In both STL and FTL, as one approaches c, one ages slower with regard to the larger universe. That is, the universe will age far faster than a spaceship barreling along at 99% of c. However, in FTL, approaching c means slowing down. If, instead, one speeds up, traveling at ever higher multiples of c, you would age faster and faster compared to the rest of the universe.

Both may be used far closer to a star or planet than one can maintain a Markov Bubble, but as with the bubble, there is a point at which the associated gravity hills become too steep for all but the slowest, most energetic FTL signals to climb. Due to the protection of the bubble, a ship retains the inertial frame of reference it had prior to FTL, which means it does not experience the extreme time dilation that an exposed superluminal particle would. Nor does it experience any relativistic effects at all (the twins of the famous twin paradox will age at the same rate if one of them takes an FTL flight from Sol to Alpha Centauri and back). This, of course, leads us to the question of causality. Why, one might ask, doesn’t FTL travel allow for time travel, as all the equations for special relativity seem to indicate?


pages: 450 words: 138,729

Stars in My Pocket Like Grains of Sand by Samuel R. Delany

it's over 9,000, time dilation

In our great mittens, we climbed down through the welter of twisted pipes and cracked masonry, shooting cool air around us with super-handy-dandy portable air conditioners. It was over forty degrees in there when we went in. We sent out beams of white, blue, and green light among the collapsed lattices of crumpled supports and broken pipes. It had been seven minutes since we got the first life-reading – but we’d all been working with x5 time-dilation drugs, which had made it seem to us just over a leisurely half-hour. Yellow, orange, and red beams converged. In the resultant glow, we saw, not moving, under a scatter of rubble, a leg. ‘Ynn set loose a handful of diagnostic bugs that attacked our find like killer bees. But even as we were closing in, it was pretty clear that something fairly awful had happened.


pages: 361 words: 143,442

Ender's shadow by Orson Scott Card

defense in depth, gravity well, time dilation

In the enemy solar system, there can be no living off the land, since access to habitable planets will be possible only after complete victory... Supply lines are not a problem, since there are none to protect, but the cost of that is that all supplies and ordnance must be carried with the invading fleet... In effect, all interstellar invasion fleets are suicide attacks, because time dilation means that even if a fleet returns intact, almost no one they knew will still be alive. They can never return, and so must be sure that their force is sufficient to be decisive and therefore is worth the sacrifice.... Mixed-sex forces allow the possibility of the army becoming a permanent colony and/or occupying force on the captured enemy planet."


pages: 453 words: 130,632

Nine Pints: A Journey Through the Money, Medicine, and Mysteries of Blood by Rose George

Affordable Care Act / Obamacare, air freight, airport security, British Empire, call centre, corporate social responsibility, Edward Snowden, global pandemic, Ignaz Semmelweis: hand washing, index card, Jeff Bezos, meta-analysis, microbiome, Nelson Mandela, obamacare, period drama, Peter Thiel, Rana Plaza, RAND corporation, Silicon Valley, Skype, social contagion, stem cell, TED Talk, time dilation

Let’s get her into bypass. No one shouts. Everyone is politely urgent: will you, would you, would you mind. I thought she had been in the bay for at least half an hour. Perhaps even more. No, says Brohi, who was one of the fourteen staff involved in the resuscitation. She was in resus for only fifteen minutes. Time dilates in there, yet time is what they have least of. Priority: potassium, calcium, and blood. The anesthetist immediately checked the woman’s potassium levels, even though it was obvious they would be high. The dangerously leaking potassium could be addressed with insulin, and this was provided. A regular dose of insulin for a diabetic will be 10 units.


pages: 459 words: 128,458

The Dream of the Iron Dragon by Robert Kroese

friendly fire, gravity well, Kickstarter, low earth orbit, pattern recognition, time dilation

Since enlisting with the IDL after engineering school, she’d had little time to read for pleasure. Even during her downtime, she was reading manuals and white papers. The IDL’s efforts to stay technologically ahead of the Cho-ta’an were relentless. Taking into account the periods she spent in stasis, as well as the time dilation involved in interstellar travel, she fell further behind every day. As a young ship’s engineer, she always felt like she was running to stand still. Even now, sitting beside the fire, she felt a twinge of guilt. The IDL was working on a prototype for a new type of reciprocal ionic thruster that was small enough to be used for auxiliary thrusters.


pages: 643 words: 131,673

How to Invent Everything: A Survival Guide for the Stranded Time Traveler by Ryan North

agricultural Revolution, Albert Einstein, Anton Chekhov, Brownian motion, butterfly effect, Douglas Hofstadter, Easter island, George Santayana, germ theory of disease, GPS: selective availability, Great Leap Forward, Ignaz Semmelweis: hand washing, income inequality, invention of radio, invention of the telegraph, invention of writing, Isaac Newton, Islamic Golden Age, Johann Wolfgang von Goethe, Kickstarter, Mahatma Gandhi, megastructure, minimum viable product, moveable type in China, placebo effect, safety bicycle, sugar pill, the scientific method, time dilation, trade route, wikimedia commons, zoonotic diseases

When you get very small (quantum scales of less than 10–9m), very fast (2.99×108 m/s, close to speed of light), or very heavy (black holes), they tend to fall apart, and here Einstein’s theories of general and special relativity describe motion with more accuracy than classical Newtonian physics can. But that’s nothing you need to concern yourself about! While gravitational time dilation caused by an accelerating inertial reference frame moving through highly curved areas of space-time is a fascinating topic—and one that’s also extremely useful when constructing FC3000™ rental-market time machines—unless you happened to bring your copy of Good Grief: You Say Space and Time but Two Aspects of a Single Continuum Called Space-Time, and Furthermore That the Speed of Light in a Vacuum Is the Same for All Observers of That Light Regardless of the Motion of the Light Source?


pages: 533 words: 145,887

Schismatrix Plus by Bruce Sterling

back-to-the-land, complexity theory, Future Shock, gravity well, heat death of the universe, industrial robot, informal economy, life extension, plutocrats, the long tail, the map is not the territory, the scientific method, time dilation

I continued to fall, and as the last rags of warmth pulsed off into the devouring chasm of space, and my body grew stiff and white and furred with frost from every pore, I faced the ultimate horror: that I would not die, that I would fall forever backward into the unknown, my mind shriveling into a single frozen spore of isolation and terror. Time dilated. Eons of silent fear telescoped into a few heartbeats and I saw before me a single white blob of light, like a rent from this cosmos into some neighboring realm full of alien radiance. This time I faced it as I fell toward it, and through it, and then, finally, jarringly, I was back behind my own eyes, within my own head, on the soft floor of Kulagin’s studio.


pages: 578 words: 168,350

Scale: The Universal Laws of Growth, Innovation, Sustainability, and the Pace of Life in Organisms, Cities, Economies, and Companies by Geoffrey West

"World Economic Forum" Davos, Alfred Russel Wallace, Anthropocene, Anton Chekhov, Benoit Mandelbrot, Black Swan, British Empire, butterfly effect, caloric restriction, caloric restriction, carbon footprint, Cesare Marchetti: Marchetti’s constant, clean water, coastline paradox / Richardson effect, complexity theory, computer age, conceptual framework, continuous integration, corporate social responsibility, correlation does not imply causation, cotton gin, creative destruction, dark matter, Deng Xiaoping, double helix, driverless car, Dunbar number, Edward Glaeser, endogenous growth, Ernest Rutherford, first square of the chessboard, first square of the chessboard / second half of the chessboard, Frank Gehry, Geoffrey West, Santa Fe Institute, Great Leap Forward, Guggenheim Bilbao, housing crisis, Index librorum prohibitorum, invention of agriculture, invention of the telephone, Isaac Newton, Jane Jacobs, Jeff Bezos, Johann Wolfgang von Goethe, John von Neumann, Kenneth Arrow, laissez-faire capitalism, Large Hadron Collider, Larry Ellison, Lewis Mumford, life extension, Mahatma Gandhi, mandelbrot fractal, Marc Benioff, Marchetti’s constant, Masdar, megacity, Murano, Venice glass, Murray Gell-Mann, New Urbanism, Oklahoma City bombing, Peter Thiel, power law, profit motive, publish or perish, Ray Kurzweil, Richard Feynman, Richard Florida, Salesforce, seminal paper, Silicon Valley, smart cities, Stephen Hawking, Steve Jobs, Stewart Brand, Suez canal 1869, systematic bias, systems thinking, technological singularity, The Coming Technological Singularity, The Death and Life of Great American Cities, the scientific method, the strength of weak ties, time dilation, too big to fail, transaction costs, urban planning, urban renewal, Vernor Vinge, Vilfredo Pareto, Von Neumann architecture, Whole Earth Catalog, Whole Earth Review, wikimedia commons, working poor

., 124, 403–4 Tesla, Nikola, 123–24 Texas, flow of transport, 292–94, 293 Thames Tunnel, 64 Theory of Everything (ToE), 429–30, 444 theory of relativity, 107–8, 115, 339, 422, 428, 429 thermodynamics, 14, 69, 71, 233, 236, 237 Thiel, Peter, 184 Thomas, Warren, 52–53 Thomas Edison Company, 123–24 Thompson, D’Arcy Wentworth, 86–88, 97, 111, 181 ¾ power scaling law, 25–27, 93, 155, 458n time dilation, 332 tipping points, 16, 24, 157–58, 382, 463n total market capitalization, 379, 389–90, 390 Tottenham Hotspur, 187 “Toward a Metabolic Theory of Ecology” (Brown, Savage, Allen, Gillooly), 174 “toy model,” 109 traffic flows, 292–94 traffic gridlock, 332–33 transaction costs, 380, 381 transportation time, 332–35 travel time, 329–30, 332–35, 346–47 treadmills, 328, 412, 418 Treatise on Man (Quetelet), 56 trees, 116–17, 121, 121–22, 172, 459–60n scaling exponents, 147, 150, 150–51 trial and error, 69–71, 74–75 Triumph of the City, The (Glaeser), 213 tumors, 6, 15, 27, 172 growth curves, 170, 171 turbulence, 72 Tusko (elephant), 53 Twitter, 296, 332, 340, 447 Two New Sciences (Galileo), 38–42 Tycho Brahe, 439 Tyrannosaurus rex, 159 UCLA School of Medicine, 205 Ultimate Resource, The (Simon), 232–33 United Nations Millennium Development Goals, 230–31 unit of length, 135–37 universality concept of, 76–77 magic number four and, 93–99 “universal laws of life,” 81, 87 universal time, 423–24 University of Modena, 249 University of New Mexico (UNM), 105, 106 urbanization, 6–7, 8–10, 214–15, 223–26 global sustainability and, 28–32, 213–15 life span and, 184–85, 191, 192–93 Urbanocene, 212, 214–15, 236, 262 urban overload, 303–4 urban planning and design, 253–58, 261–67, 290, 294–95 urban psychology, 302–4 urban renewal, 260, 261, 263 urban sociology, 266 Utzon, Jørn, 259 van der Leeuw, Sander, 249–50 van Gogh, Vincent, 189 variational principle, 115–16 Vasa (ship), 70, 459n Vinge, Vernor, 422 von Neumann, John, 424 wages in cities, 30, 275, 276, 278, 281, 285–86 Walford, Roy, 205–6, 207 walking pace, 334, 335–36, 336 Wallace, Alfred Russel, 89, 228 Walmart, 32, 388–89, 394 wars, mathematical analysis of, 132–35 washing machine, 152–53 Washington, D.C., 266–67 Washington Square (New York City), 260, 261 water supply, 360–63 Watson, James, 84, 437 watts (W), 457n Watts, Duncan, 297–98, 300–301 wave theory of light, 126 wealth creation and ranking of cities, 355–59 “wear and tear,” 15, 88, 199–200 decline of body functions with age, 195, 197, 201, 202 weight lifting, 48–51, 50, 352–53 Welwyn Garden City, 255 West, Jacqueline, 187, 317 West, Louis, 52–53 whales, 3, 5, 16, 27, 80, 90–91, 92, 155, 159–60.


pages: 574 words: 164,509

Superintelligence: Paths, Dangers, Strategies by Nick Bostrom

agricultural Revolution, AI winter, Albert Einstein, algorithmic trading, anthropic principle, Anthropocene, anti-communist, artificial general intelligence, autism spectrum disorder, autonomous vehicles, backpropagation, barriers to entry, Bayesian statistics, bioinformatics, brain emulation, cloud computing, combinatorial explosion, computer vision, Computing Machinery and Intelligence, cosmological constant, dark matter, DARPA: Urban Challenge, data acquisition, delayed gratification, Demis Hassabis, demographic transition, different worldview, Donald Knuth, Douglas Hofstadter, driverless car, Drosophila, Elon Musk, en.wikipedia.org, endogenous growth, epigenetics, fear of failure, Flash crash, Flynn Effect, friendly AI, general purpose technology, Geoffrey Hinton, Gödel, Escher, Bach, hallucination problem, Hans Moravec, income inequality, industrial robot, informal economy, information retrieval, interchangeable parts, iterative process, job automation, John Markoff, John von Neumann, knowledge worker, Large Hadron Collider, longitudinal study, machine translation, megaproject, Menlo Park, meta-analysis, mutually assured destruction, Nash equilibrium, Netflix Prize, new economy, Nick Bostrom, Norbert Wiener, NP-complete, nuclear winter, operational security, optical character recognition, paperclip maximiser, pattern recognition, performance metric, phenotype, prediction markets, price stability, principal–agent problem, race to the bottom, random walk, Ray Kurzweil, recommendation engine, reversible computing, search costs, social graph, speech recognition, Stanislav Petrov, statistical model, stem cell, Stephen Hawking, Strategic Defense Initiative, strong AI, superintelligent machines, supervolcano, synthetic biology, technological singularity, technoutopianism, The Coming Technological Singularity, The Nature of the Firm, Thomas Kuhn: the structure of scientific revolutions, time dilation, Tragedy of the Commons, transaction costs, trolley problem, Turing machine, Vernor Vinge, WarGames: Global Thermonuclear War, Watson beat the top human players on Jeopardy!, World Values Survey, zero-sum game

If your fleshly friend should happen to drop his teacup, you could watch the porcelain slowly descend toward the carpet over the course of several hours, like a comet silently gliding through space toward an assignation with a far-off planet; and, as the anticipation of the coming crash tardily propagates through the folds of your friend’s gray matter and from thence out into his peripheral nervous system, you could observe his body gradually assuming the aspect of a frozen oops—enough time for you not only to order a replacement cup but also to read a couple of scientific papers and take a nap. Because of this apparent time dilation of the material world, a speed superintelligence would prefer to work with digital objects. It could live in virtual reality and deal in the information economy. Alternatively, it could interact with the physical environment by means of nanoscale manipulators, since limbs at such small scales could operate faster than macroscopic appendages.


pages: 687 words: 191,073

The Snow Queen by Joan D. Vinge

gravity well, invisible hand, Ralph Waldo Emerson, time dilation

But in fact they came nowhere near the Old Empire's technological sophistication, and they had learned in time that real control over several subject worlds wasn't practical without a faster than-light star drive Their dreams of domination were swallowed up in the vastness of space; until they could regain a star drive they would have to be content with economic dominance, a kind the rest of the Hegemony was willing to support. But the Prime Minister and his floating royalty continued as they had begun, a symbol of unity, although not the unity of empire. They traveled from world to world, accepting homage as virtual gods--seemingly ageless, protected by time dilation and the water of life from the precession of the universe outside. Page 107 "And they're always welcome, of course; because, ironically, they're nothing but a harmless fantasy." The voices of the debaters, and the tempers behind them, had been rising while Elsevier spoke; her sudden gasp echoed the stricken silence that suddenly fell, half a continent away, in the hall of government.


pages: 624 words: 180,416

For the Win by Cory Doctorow

anti-globalists, barriers to entry, book value, Burning Man, company town, creative destruction, double helix, Internet Archive, inventory management, lateral thinking, loose coupling, Maui Hawaii, microcredit, New Journalism, off-the-grid, planned obsolescence, Ponzi scheme, post-materialism, printed gun, random walk, reality distortion field, RFID, San Francisco homelessness, Silicon Valley, skunkworks, slashdot, speech recognition, stem cell, Steve Jobs, Steve Wozniak, supply-chain management, technoutopianism, time dilation, union organizing, wage slave, work culture

The gun wavered. Wavered. “Come on,” one of his buddies said. “Come on, man!” “I’ll be there in a minute,” the kid said, his voice flat. Perry knew he was a dead man. “I’m really sorry,” the kid said, once his friends were out of range. “Me too,” said Perry. “You won’t tell my brother?” Perry froze. Time dilated. He realized that his fists were clenched so tight that his knuckles hurt. He realized that he had a zit on the back of his neck that was rubbing against his collar. He realized that the kid had a paperback book stuck in the waistband of his bangbanger shorts, which was unusual. It was a fantasy novel.


pages: 804 words: 212,335

Revelation Space by Alastair Reynolds

game design, glass ceiling, gravity well, Kuiper Belt, planetary scale, random walk, statistical model, time dilation, VTOL

'Then why——' Khouri hesitated. 'Oh, wait a minute. Now I understand. They're moving faster than us, aren't they? Much faster. Their voices sound slow because they are, literally. Clocks run slower on ships moving near the speed of light.' Volyova nodded, the tiniest bit saddened that Khouri had understood so swiftly. 'Time dilation. Of course, some of those ships are moving towards us, so doppler-blueshifting acts to reduce the effect, but the dilation factor usually wins...' She shrugged, seeing that Khouri was not yet ready for a treatise on the finer principles of relativistic communications. 'Normally, of course, Infinity corrects for all this; removes the doppler and dilatory distortions, and translates the result into something which sounds perfectly intelligible.'


pages: 695 words: 219,110

The Fabric of the Cosmos by Brian Greene

airport security, Albert Einstein, Albert Michelson, Arthur Eddington, Brownian motion, clockwork universe, conceptual framework, cosmic microwave background, cosmological constant, dark matter, dematerialisation, Eddington experiment, Hans Lippershey, Henri Poincaré, invisible hand, Isaac Newton, Large Hadron Collider, luminiferous ether, Murray Gell-Mann, power law, quantum entanglement, Richard Feynman, seminal paper, Stephen Hawking, time dilation, urban renewal

“Actually, it makes perfect sense,” Bart proudly answers. “I’ve landed at Springfield High, but 6 million years into the future. You can’t see me by looking out the Kwik-E-Mart window, because you’re looking at the right place, but you’re not looking at the right time. You’re looking 6 million years too early.” “Oh, right, that time-dilation thing of special relativity,” Lisa agrees. “Cool. Anyway, I want to get home in time for dinner, so climb through the wormhole, because we’ve got to hurry.” “Okay,” Bart says, crawling through the wormhole. He buys a Butterfinger from Apu, and he and Lisa head home. Notice that although Bart’s passage through the wormhole took him but a moment, it transported him 6 million years back in time.


pages: 1,079 words: 321,718

Surfaces and Essences by Douglas Hofstadter, Emmanuel Sander

Abraham Maslow, affirmative action, Albert Einstein, Arthur Eddington, Benoit Mandelbrot, Brownian motion, Charles Babbage, cognitive dissonance, computer age, computer vision, dematerialisation, Donald Trump, Douglas Hofstadter, Eddington experiment, Ernest Rutherford, experimental subject, Flynn Effect, gentrification, Georg Cantor, Gerolamo Cardano, Golden Gate Park, haute couture, haute cuisine, Henri Poincaré, Isaac Newton, l'esprit de l'escalier, Louis Pasteur, machine translation, Mahatma Gandhi, mandelbrot fractal, Menlo Park, Norbert Wiener, place-making, Sapir-Whorf hypothesis, Silicon Valley, statistical model, Steve Jobs, Steve Wozniak, theory of mind, time dilation, upwardly mobile, urban sprawl, yellow journalism, zero-sum game

A Two-headed Flashlight Loses a Tiny Bit of its Mass The consequences of category-broadening by analogy, applied to the principle of Galilean relativity, were enormously deep and led Einstein to a rich network of ideas whose names are familiar to anyone interested in science today, such as the relativity of simultaneity, time dilation, the contraction of moving objects, the non-additivity of speeds, the twin paradox, and so on. But those ideas, fascinating though they are, are not our focus. We wish now to come back, as promised, to the equation E = mc2, which, oddly enough, was nowhere to be found in Einstein’s first article on relativity.