Famous Speed Quotes

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Nuri Bilge Ceylan is an ocean who is becoming deeper with incredible speed and amazingly clearer by passing the time. He makes ices familiar with sea by showing “Winter Sleep”. Thanks for his existence. “All who love are relatives.
Professor Pezhman Mosleh
Whenever we come across a famous painting by an acclaimed artist, we tend to reason with ourselves. That it ought to be good, for everyone thinks highly of it. But had we not known who the artist was, we wouldn’t have appreciated the work that much. We don’t know whom this society and the media would put on a pedestal next. It could very well be you.
Abhaidev (The Influencer: Speed Must Have a Limit)
It is Einstein’s famous equation E=MC^2, in which E is energy (rajas), M is mass (tamas), and C is the speed of light (sattva). Energy, mass, and light are endlessly bound together in the universe.
B.K.S. Iyengar (Light on Life: The Yoga Journey to Wholeness, Inner Peace, and Ultimate Freedom (Iyengar Yoga Books))
I'm just at the age when time speeds up in an odd way. Do you know what I mean? The winters come closer together and you learn to accept that you're not special anymore.
Ann Druyan (A Famous Broken Heart)
It is sometimes said that we should never believe a scientific theory until it is verified by experiment. But a famous astronomer has also stated that we should never believe an observation until it is confirmed by a theory.
João Magueijo (Faster Than the Speed of Light: The Story of a Scientific Speculation)
Audre Lord famously argued that “the master’s tools will never dismantle the master’s house.
Steven Shaviro (No Speed Limit: Three Essays on Accelerationism (Forerunners: Ideas First))
A police officer pulls over Werner Heisenberg for speeding. “Do you know how fast you were going?” asks the cop. “No,” Heisenberg replies, “but I know exactly where I am!” I think we can all agree that physics jokes are the funniest jokes there are. They are less good at accurately conveying physics. This particular chestnut rests on familiarity with the famous Heisenberg uncertainty principle, often explained as saying that we cannot simultaneously know both the position and the velocity of any object. But the reality is deeper than that.
Sean Carroll (Something Deeply Hidden: Quantum Worlds and the Emergence of Spacetime)
One of the various theories proposed to explain the negative result of the famous Michelson-Morley experiment with light waves (conceived to measure the absolute space), was based on the ballistic hypothesis, i.e. on postulating that the speed of light predicted by Maxwell's equations was not given as relative to the medium but as relative to the transmitter (firearm). Had that been the case, the experiment negative results would have not caused such perplexity and frustration (as we shall see in forthcoming sections).
Felix Alba-Juez (Galloping with Sound - The Grand Cosmic Conspiracy (Relativity free of Folklore #5))
when another German scientist, Werner Heisenberg, formulated his famous uncertainty principle. In order to predict the future position and velocity of a particle, one has to be able to measure its present position and velocity accurately. The obvious way to do this is to shine light on the particle. Some of the waves of light will be scattered by the particle and this will indicate its position. However, one will not be able to determine the position of the particle more accurately than the distance between the wave crests of light, so one needs to use light of a short wavelength in order to measure the position of the particle precisely. Now, by Planck’s quantum hypothesis, one cannot use an arbitrarily small amount of light; one has to use at least one quantum. This quantum will disturb the particle and change its velocity in a way that cannot be predicted. Moreover, the more accurately one measures the position, the shorter the wavelength of the light that one needs and hence the higher the energy of a single quantum. So the velocity of the particle will be disturbed by a larger amount. In other words, the more accurately you try to measure the position of the particle, the less accurately you can measure its speed, and vice versa.
Stephen Hawking (A Brief History of Time)
The difficulty of tactical maneuvering consists in turning the devious into the direct, and misfortune into gain. [This sentence contains one of those highly condensed and somewhat enigmatical expressions of which Sun Tzu is so fond. This is how it is explained by Ts’ao Kung: “Make it appear that you are a long way off, then cover the distance rapidly and arrive on the scene before your opponent.” Tu Mu says: “Hoodwink the enemy, so that he may be remiss and leisurely while you are dashing along with utmost speed.” Ho Shih gives a slightly different turn: “Although you may have difficult ground to traverse and natural obstacles to encounter this is a drawback which can be turned into actual advantage by celerity of movement.” Signal examples of this saying are afforded by the two famous passages across the Alps—that of Hannibal, which laid Italy at his mercy, and that of Napoleon two thousand years later, which resulted in the great victory of Marengo.] 4.    Thus, to take a long and circuitous route, after enticing the enemy out of the way, and though starting after him, to contrive to reach the goal before him, shows knowledge of the artifice of DEVIATION.
Sun Tzu (The Art of War)
The exponential growth of this industry was correlated with the phenomenon famously discovered by Moore, who in 1965 drew a graph of the speed of integrated circuits, based on the number of transistors that could be placed on a chip, and showed that it doubled about every two years, a trajectory that could be expected to continue. This was reaffirmed in 1971, when Intel was able to etch a complete central processing unit onto one chip, the Intel 4004, which was dubbed a “microprocessor.” Moore’s Law has held generally true to this day, and its reliable projection of performance to price allowed two generations of young entrepreneurs, including Steve Jobs and Bill Gates, to create cost projections for their forward-leaning products.
Walter Isaacson (Steve Jobs)
Travel in a rocket at 99 percent the speed of light and you’ll enjoy the consequential sevenfold time dilation: from your perspective nothing has changed; you have aged a decade in ten years’ worth of travel. But upon returning to Earth you’d find that seventy years have passed and none of your old friends are still alive to greet you. (For the famous formula that lets you calculate the slowdown of time at any speed you care to consider, see the Lorentz transformation in Appendix 1.) Then the truth rather than the theory
Robert Lanza (Biocentrism: How Life and Consciousness are the Keys to Understanding the True Nature of the Universe)
Britain’s Royal Veterinary College, where Catherine worked, had come into being in 1792 to study the skeleton of a famous English racehorse named Eclipse, an undefeated champion popular for his thrilling speed. The file contained lively newspaper reports on Eclipse’s races
Geraldine Brooks (Horse)
General Garrison assembled all of the men for a memorial service, and captured their feelings of sadness, fear, and resolve with the famous martial speech from Shakespeare’s Henry V: Whoever does not have the stomach for this fight, let him depart. Give him money to speed his departure since we wish not to die in that man’s company. Whoever lives past today and comes home safely will rouse himself every year on this day, show his neighbor his scars, and tell embellished stories of all their great feats of battle. These stories he will teach his son and from this day until the end of the world we shall be remembered. We few, we happy few, we band of brothers; for whoever has shed his blood with me shall be my brother. And those men afraid to go will think themselves lesser men as they hear of how we fought and died together.
Mark Bowden (Black Hawk Down: A Story of Modern War)
Relationships are physics. Time transforms things- it has to, because the change from me to we means clearing away the fortifications you'r put up around your old personality. Living with Susannah made me feel as if I started riding Einstein's famous theoretical bus. Here's my understanding of that difficult idea, nutshelled: if you're riding a magic Greyhound, equipped for light-speed travel, you'll actually live though less time than will any pedestrians whom the bus passes by. So, for a neighbor on the street with a stopwatch, the superfast bus will take two hours to travel from Point A to Point B. But where you're on that Greyhound, and looking at the wipe of the world out those rhomboidial coach windows, the same trip will take just under twenty-four minutes. Your neighbor, stopwatch under thumb, will have aged eighty-six percent more than you have. It's hard to fathom. But I think it's exactly what adult relationships do to us: on the outside, years pass, lives change. But inside, it's just a day that repeats. You and your partner age at the same clip; it seems not time has gone by. Only when you look up from your relationship- when you step off the bus, feel the ground under your shoes- do you sense the sly, soft absurdity of romance physics.
Darin Strauss (Half a Life)
She saw herself, a fading figure, more than half-way now towards the sunset end, within sight even of the shadowed emptiness that lay beyond the sun's dipping edge. She had lingered over-long, expecting a dream to confirm a dream; she had been oblivious of the truth that the lane went rushing just the same. It was now too late. The speed increased. She had waited, waited for nothing. The seller of dreams was a myth.
Algernon Blackwood (Famous Ghost Stories)
The sphere to end all spheres—the largest and most perfect of them all—is the entire observable universe. In every direction we look, galaxies recede from us at speeds proportional to their distance. As we saw in the first few chapters, this is the famous signature of an expanding universe, discovered by Edwin Hubble in 1929. When you combine Einstein’s relativity and the velocity of light and the expanding universe and the spatial dilution of mass and energy as a consequence of that expansion, there is a distance in every direction from us where the recession velocity for a galaxy equals the speed of light. At this distance and beyond, light from all luminous objects loses all its energy before reaching us. The universe beyond this spherical “edge” is thus rendered invisible and, as far as we know, unknowable. There’s a variation of the ever-popular multiverse idea in which the multiple universes that comprise it are not separate universes entirely, but isolated, non-interacting pockets of space within one continuous fabric of space-time—like multiple ships at sea, far enough away from one another so that their circular horizons do not intersect. As far as any one ship is concerned (without further data), it’s the only ship on the ocean, yet they all share the same body of water.
Neil deGrasse Tyson (Astrophysics for People in a Hurry)
You will see this book takes twists and turns. Welcome to the pinball machine of my mind. Here, authenticity lives with eccentricity. A delicious diet, if a bit unsteady. My poems, my puns, my spiritual side trips, and the names of friends, both famous and infamous, dropped along the way – I can’t stop myself. I can’t help myself. So come along. It’s dangerous, but indulge me. We will travel with lightning speed because I’ve led a lightning-speed life.
Val Kilmer (I'm Your Huckleberry: A Memoir)
In Stalin’s famous words, one death is a tragedy; one million deaths is a statistic. In this case, it is not even a particularly good statistic. The very incomprehensibility of what a million horrible and violent deaths might mean, and the impossibility of producing an appropriate response, is perhaps the reason that the events following partition have yielded such a great and moving body of fictional literature and such an inadequate and flimsy factual history. What does it matter to the readers of history today whether there were 200,000 deaths, or 1 million, or 2 million? On that scale, is it possible to feel proportional revulsion, to be five times more upset at 1 million deaths than at 200,000? Few can grasp the awfulness of how it might feel to have their fathers barricaded in their houses and burnt alive, their mothers beaten and thrown off speeding trains, their daughters torn away, raped and branded, their sons held down in full view, screaming and pleading, while a mob armed with rough knives hacked off their hands and feet. All these things happened, and many more like them; not just once, but perhaps a million times. It is not possible to feel sufficient emotion to appreciate this monstrous savagery and suffering. That is the true horror of the events in the Punjab in 1947: one of the vilest episodes in the whole of history, a devastating illustration of the worst excesses to which human beings can succumb. The death toll is just a number.
Alex von Tunzelmann (Indian Summer: The Secret History of the End of an Empire)
Liston’s speed was both a gift and a curse. Once, he accidentally sliced off a patient’s testicle along with the leg he was amputating. His most famous (and possibly apocryphal) mishap involved an operation during which he worked so rapidly that he took off three of his assistant’s fingers and, while switching blades, slashed a spectator’s coat. Both the assistant and the patient died later of gangrene, and the unfortunate bystander expired on the spot from fright. It is the only surgery in history said to have had a 300 percent fatality rate.
Lindsey Fitzharris (The Butchering Art: Joseph Lister's Quest to Transform the Grisly World of Victorian Medicine)
famous example is the so-called two-slit experiment (Fig. 4.2). Consider a partition with two narrow parallel slits in it. On one side of the partition one places a source of light of a particular color (that is, of a particular wavelength). Most of the light will hit the partition, but a small amount will go through the slits. Now suppose one places a screen on the far side of the partition from the light. Any point on the screen will receive waves from the two slits. However, in general, the distance the light has to travel from the source to the screen via the two slits will be different. This will mean that the waves from the slits will not be in phase with each other when they arrive at the screen: in some places the waves will cancel each other out, and in others they will reinforce each other. The result is a characteristic pattern of light and dark fringes. The remarkable thing is that one gets exactly the same kind of fringes if one replaces the source of light by a source of particles such as electrons with a definite speed (this means that the corresponding waves have a definite length). It seems the more peculiar because if one only has one slit, one does not get any fringes, just a uniform distribution of electrons across the screen. One might therefore think that opening another slit would just increase the number of electrons hitting each point of the screen, but, because of interference, it actually decreases it in some places. If electrons are sent through the slits one at a time, one would expect each to pass through one slit or the other, and so behave just as if the slit it passed through were the only one there – giving a uniform distribution on the screen. In reality, however, even when the electrons are sent one at a time, the fringes still appear. Each electron, therefore, must be passing through both slits at the same time!
Stephen Hawking (A Brief History of Time)
The exponential growth of this industry was correlated with the phenomenon famously discovered by Moore, who in 1965 drew a graph of the speed of integrated circuits, based on the number of transistors that could be placed on a chip, and showed that it doubled about every two years, a trajectory that could be expected to continue. This was reaffirmed in 1971, when Intel was able to etch a complete central processing unit onto one chip, the Intel 4004, which was dubbed a “microprocessor.”Moore’s Law has held generally true to this day, and its reliable projection of performance to price allowed two generations of young entrepreneurs, including Steve Jobs and Bill Gates, to create cost projections for their forward- leaning products.
Walter Isaacson (Steve Jobs)
The exponential growth of this industry was correlated with the phenomenon famously discovered by Moore, who in 1965 drew a graph of the speed of integrated circuits, based on the number of transistors that could be placed on a chip, and showed that it doubled about every two years, a trajectory that could be expected to continue. This was reaffirmed in 1971, when Intel was able to etch a complete central processing unit onto one chip, the Intel 4004, which was dubbed a “microprocessor.” Moore’s Law has held generally true to this day, and its reliable projection of performance to price allowed two generations of young entrepreneurs, including Steve Jobs and Bill Gates, to create cost projections for their forward-leaning products. The
Walter Isaacson (Steve Jobs)
It was said of Liston by his colleagues that when he amputated, “the gleam of his knife was followed so instantaneously by the sound of sawing as to make the two actions appear almost simultaneous.” His left arm was reportedly so strong that he could use it as a tourniquet, while he wielded the knife in his right hand. This was a feat that required immense strength and dexterity, given that patients often struggled against the fear and agony of the surgeon’s assault. Liston could remove a leg in less than thirty seconds, and in order to keep both hands free, he often clasped the bloody knife between his teeth while working. Liston’s speed was both a gift and a curse. Once, he accidentally sliced off a patient’s testicle along with the leg he was amputating. His most famous (and possibly apocryphal) mishap involved an operation during which he worked so rapidly that he took off three of his assistant’s fingers and, while switching blades, slashed a spectator’s coat. Both the assistant and the patient died later of gangrene, and the unfortunate bystander expired on the spot from fright. It is the only surgery in history said to have had a 300 percent fatality rate.
Lindsey Fitzharris (The Butchering Art: Joseph Lister's Quest to Transform the Grisly World of Victorian Medicine)
It was Horace. He’d squeezed out of his cage again. He could make himself quite runny when he wanted to. There was a broken butter dish on the floor, but although it had been full of butter, there was none there now. There was just a greasy patch. And, from the darkness under the sink, there came a sort of high-speed grumbling noise, a kind of mnnamnamnam.... “Oh, you’re after butter now, are you, Horace?” said Tiffany, picking up the dairy broom. “That’s practically cannibalism, you know.” Still, it was better than mice, she had to admit. Finding little piles of mouse bones on the floor was a bit distressing. Even Miss Treason had not been able to work that one out. A mouse she happened to be looking through would be trying to get at the cheeses and then it would all go dark. That was because Horace was a cheese. Tiffany knew that Lancre Blue cheeses were always a bit on the lively side, and sometimes had to be nailed down, but...well, she was highly skilled at cheese making, even though she said it herself, and Horace was definitely a champion. The famous blue streaks that gave the variety its wonderful color were really pretty, although Tiffany wasn’t sure they should glow in the dark.
Terry Pratchett (Wintersmith (Discworld, #35; Tiffany Aching, #3))
The world is made of fields—substances spread through all of space that we notice through their vibrations, which appear to us as particles. The electric field and the gravitational field might seem familiar, but according to quantum field theory even particles like electrons and quarks are really vibrations in certain kinds of fields. • The Higgs boson is a vibration in the Higgs field, just as a photon of light is a vibration in the electromagnetic field. • The four famous forces of nature arise from symmetries—changes we can make to a situation without changing anything important about what happens. (Yes, it makes no immediate sense that “a change that doesn’t make a difference” leads directly to “a force of nature” . . . but that was one of the startling insights of twentieth-century physics.) • Symmetries are sometimes hidden and therefore invisible to us. Physicists often say that hidden symmetries are “broken,” but they’re still there in the underlying laws of physics—they’re simply disguised in the immediately observable world. • The weak nuclear force, in particular, is based on a certain kind of symmetry. If that symmetry were unbroken, it would be impossible for elementary particles to have mass. They would all zip around at the speed of light. • But most elementary particles do have mass, and they don’t zip around at the speed of light. Therefore, the symmetry of the weak interactions must be broken. • When space is completely empty, most fields are turned off, set to zero. If a field is not zero in empty space, it can break a symmetry. In the case of the weak interactions, that’s the job of the Higgs field. Without it, the universe would be an utterly different place.   Got
Sean Carroll (The Particle at the End of the Universe)
Moore’s Law, the rule of thumb in the technology industry, tells us that processor chips—the small circuit boards that form the backbone of every computing device—double in speed every eighteen months. That means a computer in 2025 will be sixty-four times faster than it is in 2013. Another predictive law, this one of photonics (regarding the transmission of information), tells us that the amount of data coming out of fiber-optic cables, the fastest form of connectivity, doubles roughly every nine months. Even if these laws have natural limits, the promise of exponential growth unleashes possibilities in graphics and virtual reality that will make the online experience as real as real life, or perhaps even better. Imagine having the holodeck from the world of Star Trek, which was a fully immersive virtual-reality environment for those aboard a ship, but this one is able to both project a beach landscape and re-create a famous Elvis Presley performance in front of your eyes. Indeed, the next moments in our technological evolution promise to turn a host of popular science-fiction concepts into science facts: driverless cars, thought-controlled robotic motion, artificial intelligence (AI) and fully integrated augmented reality, which promises a visual overlay of digital information onto our physical environment. Such developments will join with and enhance elements of our natural world. This is our future, and these remarkable things are already beginning to take shape. That is what makes working in the technology industry so exciting today. It’s not just because we have a chance to invent and build amazing new devices or because of the scale of technological and intellectual challenges we will try to conquer; it’s because of what these developments will mean for the world.
Eric Schmidt (The New Digital Age: Reshaping the Future of People, Nations and Business)
A famous British writer is revealed to be the author of an obscure mystery novel. An immigrant is granted asylum when authorities verify he wrote anonymous articles critical of his home country. And a man is convicted of murder when he’s connected to messages painted at the crime scene. The common element in these seemingly disparate cases is “forensic linguistics”—an investigative technique that helps experts determine authorship by identifying quirks in a writer’s style. Advances in computer technology can now parse text with ever-finer accuracy. Consider the recent outing of Harry Potter author J.K. Rowling as the writer of The Cuckoo’s Calling , a crime novel she published under the pen name Robert Galbraith. England’s Sunday Times , responding to an anonymous tip that Rowling was the book’s real author, hired Duquesne University’s Patrick Juola to analyze the text of Cuckoo , using software that he had spent over a decade refining. One of Juola’s tests examined sequences of adjacent words, while another zoomed in on sequences of characters; a third test tallied the most common words, while a fourth examined the author’s preference for long or short words. Juola wound up with a linguistic fingerprint—hard data on the author’s stylistic quirks. He then ran the same tests on four other books: The Casual Vacancy , Rowling’s first post-Harry Potter novel, plus three stylistically similar crime novels by other female writers. Juola concluded that Rowling was the most likely author of The Cuckoo’s Calling , since she was the only one whose writing style showed up as the closest or second-closest match in each of the tests. After consulting an Oxford linguist and receiving a concurring opinion, the newspaper confronted Rowling, who confessed. Juola completed his analysis in about half an hour. By contrast, in the early 1960s, it had taken a team of two statisticians—using what was then a state-of-the-art, high-speed computer at MIT—three years to complete a project to reveal who wrote 12 unsigned Federalist Papers. Robert Leonard, who heads the forensic linguistics program at Hofstra University, has also made a career out of determining authorship. Certified to serve as an expert witness in 13 states, he has presented evidence in cases such as that of Christopher Coleman, who was arrested in 2009 for murdering his family in Waterloo, Illinois. Leonard testified that Coleman’s writing style matched threats spray-painted at his family’s home (photo, left). Coleman was convicted and is serving a life sentence. Since forensic linguists deal in probabilities, not certainties, it is all the more essential to further refine this field of study, experts say. “There have been cases where it was my impression that the evidence on which people were freed or convicted was iffy in one way or another,” says Edward Finegan, president of the International Association of Forensic Linguists. Vanderbilt law professor Edward Cheng, an expert on the reliability of forensic evidence, says that linguistic analysis is best used when only a handful of people could have written a given text. As forensic linguistics continues to make headlines, criminals may realize the importance of choosing their words carefully. And some worry that software also can be used to obscure distinctive written styles. “Anything that you can identify to analyze,” says Juola, “I can identify and try to hide.
Anonymous
ONCE YOU’VE HOOKED readers, your next task is to put your early chapters to work introducing your characters, settings, and stakes. The first 20-25% of the book comprises your setup. At first glance, this can seem like a tremendous chunk of story to devote to introductions. But if you expect readers to stick with you throughout the story, you first have to give them a reason to care. This important stretch is where you accomplish just that. Mere curiosity can only carry readers so far. Once you’ve hooked that sense of curiosity, you then have to deepen the pull by creating an emotional connection between them and your characters. These “introductions” include far more than just the actual moment of introducing the characters and settings or explaining the stakes. In themselves, the presentations of the characters probably won’t take more than a few scenes. After the introduction is when your task of deepening the characters and establishing the stakes really begins. The first quarter of the book is the place to compile all the necessary components of your story. Anton Chekhov’s famous advice that “if in the first act you have hung a pistol on the wall, then in the following one it should be fired” is just as important in reverse: if you’re going to have a character fire a gun later in the book, that gun should be introduced in the First Act. The story you create in the following acts can only be assembled from the parts you’ve shown readers in this First Act. That’s your first duty in this section. Your second duty is to allow readers the opportunity to learn about your characters. Who are these people? What is the essence of their personalities? What are their core beliefs (even more particularly, what are the beliefs that will be challenged or strengthened throughout the book)? If you can introduce a character in a “characteristic moment,” as we talked about earlier, you’ll be able to immediately show readers who this person is. From there, the plot builds as you deepen the stakes and set up the conflict that will eventually explode in the Inciting and Key Events. Authors sometimes feel pressured to dive right into the action of their stories, at the expense of important character development. Because none of us wants to write a boring story, we can overreact by piling on the explosions, fight sequences, and high-speed car chases to the point we’re unable to spend important time developing our characters. Character development is especially important in this first part of the story, since readers need to understand and sympathize with the characters before they’re hit with the major plot revelations at the quarter mark, halfway mark, and three-quarters mark. Summer blockbusters are often guilty of neglecting character development, but one enduring exception worth considering is Stephen Spielberg’s Jurassic Park. No one would claim the film is a leisurely character study, but it rises far above the monster movie genre through its expert use of pacing and its loving attention to character, especially in its First Act. It may surprise some viewers to realize the action in this movie doesn’t heat up until a quarter of the way into the film—and even then we have no scream-worthy moments, no adrenaline, and no extended action scenes until halfway through the Second Act. Spielberg used the First Act to build suspense and encourage viewer loyalty to the characters. By the time the main characters arrive at the park, we care about them, and our fear for their safety is beginning to manifest thanks to a magnificent use of foreshadowing. We understand that what is at stake for these characters is their very lives. Spielberg knew if he could hook viewers with his characters, he could take his time building his story to an artful Climax.
K.M. Weiland (Structuring Your Novel: Essential Keys for Writing an Outstanding Story)
The military machine of Caesar advanced with such force that it provoked Cicero, the famous writer and Senator of the time, to famously remark, “The wariness and speed of that monster are terrifying.
Henry Freeman (Julius Caesar: A Life From Beginning to End (One Hour History Military Generals Book 4))
The Century was a high-speed luxury train, used by the rich and famous traveling between Chicago and New York. Sportscaster Bob Elson set up a microphone in Chicago’s LaSalle Street Station and tried to intercept well-knowns for spontaneous interviews. Among the celebrities who appeared were Rita Hayworth and Eleanor Roosevelt, but architect Frank Lloyd Wright brushed briskly past. When Elson said he loved Wright’s work, Wright replied, “In that case, young man, I’ve done enough for you already.” The show was alive with terminal noise, with trains hissing and chugging and tooting. Train buffs complained that the Century was dieselpowered, but the producers thought the old sounds were more romantic, so the sound effects records remained, at least into the late ’40s.
John Dunning (On the Air: The Encyclopedia of Old-Time Radio)
What are we left with then? We are left with a system where ObamaCare is a rule for, as Leona Helmsley so famously described them, the little people. For everybody who doesn't have power and juice and connections in Washington, for everyone--look for the men and women at home, maybe you have an army of lobbyists working for you. Maybe you have Senators' cell phones on your speed dial. Maybe you can walk the corridors of power. In that case you too get an exemption. But if you are just a hard-working American, if you are just trying to provide for your family, if you are just trying to do an honest day's work, make your community better, raise your kids, set a good example, then the message this President has sent--and sadly the message the Senate has sent--is you don't count. We are going to treat everybody else better than you.   That
Ted Cruz (TED CRUZ: FOR GOD AND COUNTRY: Ted Cruz on ISIS, ISIL, Terrorism, Immigration, Obamacare, Hillary Clinton, Donald Trump, Republicans,)
For the man on the street, science and math sound too and soulless. It is hard to appreciate their significance Most of us are just aware of Newton's apple trivia and Einstein's famous e mc2. Science, like philosophy, remains obscure and detached, playing role in our daily lives. There is a general perception that science is hard to grasp and has direct relevance to what we do. After all, how often do we discuss Dante or Descartes over dinner anyway? Some feel it to be too academic and leave it to the intellectuals or scientists to sort out while others feel that such topics are good only for academic debate. The great physicist, Rutherford, once quipped that, "i you can't explain a complex theory to a bartender, the theory not worth it" Well, it could be easier said than done (applications of tools
Sharad Nalawade (The Speed Of Time)
Robert Liston, a famous surgeon, in setting out to best his own speed record for amputation of the leg, accidentally amputated one of his patient’s testicles and two of his assistant’s fingers.
Robert W. Winters (Accidental Medical Discoveries: How Tenacity and Pure Dumb Luck Changed the World)
333 Texas has the highest speed limit of any US state – you can drive down the Texas State Highway 130 at 85mph
Jim Green (3001 Unusual Facts, Funny True Stories & Odd Trivia: Amazing Book of Odd & Unusual Trivia Interesting Facts about Famous People, Odd Trivia from Science ... Unusual Facts from US & World History)
Take for example the most famous scientific equation of all time, E=mc2, where 'c' denotes the speed of light, 'E' equals energy, and 'm' equals mass. If time is different or not existent in the quantum world or the event horizon of a black hole, then speed must also be different because speed is a measure of the rate in which time passes when an object travels over a distance between two points. Hypothetically, if time doesn't exist in these places, either E=m alone or the whole equation no longer applies.  
Vera Percepio (The Philosophy of Vera Percepio)
Our imaginations are forlornly under-equipped to cope with distances outside the narrow middle range of the ancestrally familiar. We try to visualize an electron as a tiny ball, in orbit around a larger cluster of balls representing protons and neutrons. That isn’t what it is like at all. Electrons are not like little balls. They are not like anything we recognize. It isn’t clear that ‘like’ even means anything when we try to fly too close to reality’s further horizons. Our imaginations are not yet tooled-up to penetrate the neighbourhood of the quantum. Nothing at that scale behaves in the way matter – as we are evolved to think – ought to behave. Nor can we cope with the behaviour of objects that move at some appreciable fraction of the speed of light. Common sense lets us down, because common sense evolved in a world where nothing moves very fast, and nothing is very small or very large. At the end of a famous essay on ‘Possible Worlds’, the great biologist J. B. S. Haldane wrote, ‘Now, my own suspicion is that the universe is not only queerer than we suppose, but queerer than we can suppose…I suspect that there are more things in heaven and earth than are dreamed of, or can be dreamed of, in any philosophy.’ By the way, I am intrigued by the suggestion that the famous Hamlet speech invoked by Haldane is conventionally mis-spoken. The normal stress is on ‘your’:
Anonymous
Once World War II began, he argued that women’s participation in the war effort would give them even more strength and speed up this coming matriarchy. Wonder Woman comics were his way to prepare young readers for this inevitable revolution.
Tim Hanley (Wonder Woman Unbound: The Curious History of the World's Most Famous Heroine)
While the Tour of Flanders is also famous for its cobbles, the pavé in Paris–Roubaix is bigger and even rougher. Imagine riding down a riverbed in a shopping cart, at over 50 kph in places, and that will give you some idea of the sensation.
Cavendish Mark (At Speed: My Life in the Fast Lane)
Meredith Etherington-Smith Meredith Etherington-Smith became an editor of Paris Vogue in London and GQ magazine in the United States during the 1970s. During the 1980s, she served as deputy and features editor of Harpers & Queen magazine and has since become a leading art critic. Currently, she is editor in chief of Christie’s magazine. She is also a noted artist biographer; her book on Salvador Dali, The Persistence of Memory, was an international bestseller and was translated into a dozen languages. Her drawing room that morning was much like any comfortable, slightly formal drawing room to be found in country houses throughout England: the paintings, hung on pale yellow walls, were better; the furniture, chintz-covered; the flowers, natural garden bouquets. It was charming. And so was she, as she swooped in from a room beyond. I had never seen pictures of her without any makeup, with just-washed hair and dressed in jeans and a white T-shirt. She looked more vital, more beautiful, than any photograph had ever managed to convey. She was, in a word, staggering; here was the most famous woman in the world up close, relaxed, funny, and warm. The tragic Diana, the royal Diana, the wronged Diana: a clever, interesting person who wasn’t afraid to say she didn’t know how an auction sale worked, and would it be possible to work with me on it? “Of course, ma’am,” I said. “It’s your sale, and if you would like, then we’ll work on it together to make the most money we can for your charities.” “So what do we do next?” she asked me. “First, I think you had better choose the clothes for sale.” The next time I saw her drawing room, Paul Burrell, her butler, had wheeled in rack after rack of jeweled, sequined, embroidered, and lacy dresses, almost all of which I recognized from photographs of the Princess at some state event or gala evening. The visible relics of a royal life that had ended. The Princess, in another pair of immaculately pressed jeans and a stripy shirt, looked so different from these formal meringues that it was almost laughable. I think at that point the germ of an idea entered my mind: that sometime, when I had gotten to know her better and she trusted me, I would like to see photographs of the “new” Princess Diana--a modern woman unencumbered by the protocol of royal dress. Eventually, this idea led to putting together the suite of pictures of this sea-change princess with Mario Testino. I didn’t want her to wear jewels; I wanted virtually no makeup and completely natural hair. “But Meredith, I always have people do my hair and makeup,” she explained. “Yes ma’am, but I think it is time for a change--I want Mario to capture your speed, and electricity, the real you and not the Princess.” She laughed and agreed, but she did turn up at the historic shoot laden with her turquoise leather jewel boxes. We never opened them. Hair and makeup took ten minutes, and she came out of the dressing room looking breathtaking. The pictures are famous now; they caused a sensation at the time. My favorite memory of Princess Diana is when I brought the work prints round to Kensington Palace for her to look at. She was so keen to see them that she raced down the stairs and grabbed them. She went silent for a moment or two as she looked at these vivid, radiant images. Then she turned to me and said, “But these are really me. I’ve been set free and these show it. Don’t you think,” she asked me, “that I look a bit like Marilyn Monroe in some of them?” And laughed.
Larry King (The People's Princess: Cherished Memories of Diana, Princess of Wales, From Those Who Knew Her Best)
I was reminded of the child prodigy who was summoned to perform for a famous pianist. The child climbed into the piano stool and played something by Chopin with great speed and accuracy. When the child had finished, the great musician patted it on the head and said, “You can play the notes. Someday, you may be able to play the music.” Puppet
Roger Ebert (I Hated, Hated, Hated This Movie)
Light control works; close control leads to overreaction, sometimes causing the machinery to break into pieces. In a famous paper “On Governors,” published in 1867, Maxwell modeled the behavior and showed mathematically that tightly controlling the speed of engines leads to instability.
Nassim Nicholas Taleb (Antifragile: Things That Gain From Disorder)
Always when the baby cries, we feel our milk returning: acting with energy and speed, we do our duty” sang the famous wet nurses of Casentino near Florence in the 15th century.3
Gabrielle Palmer (The Politics of Breastfeeding: When Breasts are Bad for Business)
The lack of affordable housing regulation allows rents to rise with little restriction, and Oregon law prohibits local governments from enacting almost all rent-control policies outside of special subsidized units. But regulation, like Portland’s famous urban growth boundary, has also enhanced the number of multi-unit buildings being constructed inside a limited zone to avoid suburban-like sprawl. Although Portland’s rental rates are not skyrocketing at the speed of San Francisco or even Seattle, the U.S. Census ranks Portland as having one of the tightest markets in the nation. Despite tax-abatement programs for luxury neighbors like the Pearl District and the South Waterfront supposedly tied to affordable-housing units, the city Housing Bureau says they won’t even meet 2003 goals, much less expand and continue programs. Meanwhile, the average condo price rose 41 percent last year and the average apartment rental has climbed at a steady pace of six percent in 2012 and again in 2013.
Anonymous
Tonight," said Potapov, and his wrinkled nose quivered above his thin lips, "we intend to adopt a new resolution, not only for Ispas, but for all the villages in the region. From this moment on, until further notice, every breeder of horses, like you, Comrade Lazar, will endeavor— No, he won't try, he will succeed! - Yes, he will succeed 100 percent The pregnancy and birth of all female mares!" The fifty people in the hall fell silent, and Potapov asked, "Is that clear? Something unclear in my words?" "Something unclear in my words?" Isabel came back after him. "Yes, Comrade Potapov," said Roman. "There are some unclear things." Isabelle and Sissy pinched him, and Isabelle continued to whisper in Potapov's unpleasant tenor voice, "One hundred percent pregnancy and birth of all female mares!" Sissy almost laughed out loud. Roman broke away from his wife and sister and walked to the aisle between the pews, from which He could speak without interruption from them. "You said you were an animal enclosure expert from Moscow?" Roman asked. "Please teach us how to achieve such extraordinary results." Ostap rose - Ostap, who never spoke at these assemblies! Even Yana was shocked. "Forgive me," said Ostap, seeming not to believe his own impudence, "but that's what they call female mares in Moscow, 'mares women'? Because here in Ukraine they simply say 'mares'." "Never mind," said Potapov. "And the mares, by the way, don't give birth," added Ostap with eyes burning with hatred and in a low voice with contempt. "They give birth." "Well, let's talk." Potapov pointed to the members of the Lazar family who were sitting with Mirik and Petka. "Comrade Zhuk told me about you, the Lazar family," Potapov said. Petka immediately got up and moved to another place. Mirik also moved his chair a little further - only a few centimeters, but still! He was staying away so he wouldn't be lumped in with those troublesome lazars, Isabelle thought. Unbelievable. Problematic like his wife, himself and his flesh. "We believe," said Potapov, "that you are using your horses by means of sabotage against the Soviet state." "And how do we do that?" asked Roman, who stood beside his brother. By having your mares give birth only once a year!" I don't create a horse, Comrade Potapov, I only quarter him." The mare's gestation period is eleven months," Roman said. "If you need to improve! Why do your horses, which you are apparently so famous for, only give birth to one foal per horse?" Potapov asked. "Why is their pregnancy so long? Almost a year? It's unthinkable! Can't you speed up the birth earlier and quarter them again? Or see if there's a way to make a mare carry two foals in one place? That would be very productive!" The members of the Lazar family looked forward and not at each other, lest they openly express contempt and be arrested for the crime of rowing under the Soviet Union. It is impossible to respect something that is despised, the Christian Jesus was right in that, Isabel thought, and wished that Roman would bite his tongue. Vitaly and Stan, Oleg Tretyak, the evicted Kubal, and most recently Andreyush - all these poor people were witnesses and victims of Stalin's total dedication to the reign of terror. Soon even the pretense that the rule of law exists will be abandoned. Yana got to her feet with an effort and held the chair rest. "I have to go," she said. "As you can see, I'm a pregnant female about to give birth. But maybe the experts from Moscow should spend some time around the stable during the calving season before they start giving recommendations." Yana nodded to Roman and Ostap and left the hall with a wobbly gait. Isabelle thought that Yana was slowing down for Potapov's sake. Just a few hours ago she jumped on the back of a horse and then got off above him without help and without effort. Potapov paid no attention to Yana's words or to her departure. "We need to solve th''e horse problem!" said the man.
Paulina Simons
Aren’t fears of disappearing jobs something that people claim periodically, like with both the agricultural and industrial revolution, and it’s always wrong?” It’s true that agriculture went from 40 percent of the workforce in 1900 to 2 percent in 2017 and we nonetheless managed to both grow more food and create many wondrous new jobs during that time. It’s also true that service-sector jobs multiplied in many unforeseen ways and absorbed most of the workforce after the Industrial Revolution. People sounded the alarm of automation destroying jobs in the 19th century—the Luddites destroying textile mills in England being the most famous—as well as in the 1920s and the 1960s, and they’ve always been wildly off the mark. Betting against new jobs has been completely ill-founded at every point in the past. So why is this time different? Essentially, the technology in question is more diverse and being implemented more broadly over a larger number of economic sectors at a faster pace than during any previous time. The advent of big farms, tractors, factories, assembly lines, and personal computers, while each a very big deal for the labor market, were orders of magnitude less revolutionary than advancements like artificial intelligence, machine learning, self-driving vehicles, advanced robotics, smartphones, drones, 3D printing, virtual and augmented reality, the Internet of things, genomics, digital currencies, and nanotechnology. These changes affect a multitude of industries that each employ millions of people. The speed, breadth, impact, and nature of the changes are considerably more dramatic than anything that has come before.
Andrew Yang (The War on Normal People: The Truth About America's Disappearing Jobs and Why Universal Basic Income Is Our Future)
At breakfast on Friday morning a crowd of curious hotel guests gathered around Arthur Peuchen in the Waldorf-Astoria’s dining room and made him recount his story once again. In the hotel’s largest ballroom, meanwhile, seven U.S. senators were preparing to question J. Bruce Ismay, the first witness to appear before the U.S. Senate investigation. As he began his testimony that morning, Ismay still seemed shaken by the disaster, and his voice was almost a whisper as he expressed his “sincere grief at this deplorable catastrophe” and offered his full cooperation to the inquiry. Yet his answers were guarded and often prefaced with “I presume” or “I believe” and concluded by “More than that I cannot say”—giving his testimony an air of evasiveness. His claims that he was simply a passenger like any other and that the Titanic was not pushed to its maximum speed were greeted with skepticism by the senators and with open hostility by the press. The Hearst newspapers famously dubbed him J. “Brute” Ismay and ran his photograph framed by those of Titanic widows. Edith Rosenbaum was among the few survivors who thought that the White Star chairman was being made a scapegoat and made a point of telling reporters that it was Ismay who had put her into a lifeboat.
Hugh Brewster (Gilded Lives, Fatal Voyage: The Titanic's First-Class Passengers and Their World)
the most notable instance being that which is described in Adamnan's famous 6th century Life of St Columba. There we read that in the year AD 565, Columba, on yet another of his missionary journeys north, needed to cross the river Ness. As he was about to do so, he saw a burial party. On enquiry, he was informed that they were burying a man who had just been killed by a savage bite from a monster which had snatched him while swimming. On hearing this, and with never a thought for his own safety, the brave saint immediately ordered one of his followers to jump into the freezing water to see if the monster was still in the vicinity. Adamnan relates how the thrashing about of the alarmed and unhappy swimmer, Lugne Mocumin by name, attracted the monster's attention. Suddenly, on breaking the surface, the monster was seen to speed towards the luckless chap with its mouth wide open and screaming like a banshee. Columba, however, refused to panic, and from the safety of the dry land rebuked the beast. Whether the swimmer added any rebukes of his own is not recorded, but the monster was seen to turn away, having approached the swimmer so closely that not the length of a punt-pole lay between them.
Bill Cooper (After the Flood)
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SAM
Bathed in a late autumn glow, Springfield doesn’t seem like a community ravaged by meth despite its reputation as a paradise for tweakers (chronic users). The Battlefield Mall—named in memory of Wilson’s Creek, a famous Civil War battle
Frank Owen (No Speed Limit: Meth Across America)
Let’s have a glance at Strong’s theory. Okay, the 2nd Earl of Essex, a former court favorite, had been the leader of the failed rebellion against the crown. In Strong’s strange-fantastic scenario, the pregnant Lady Essex, hoping to prevent the beheading of her husband following his arrest, had with great speed commissioned this sexy full-length portrait of herself and sent it to Elizabeth as a plea to spare her husband’s life. Strong made no attempt to explain why Lady Essex, who was famously despised by Elizabeth, would have thought it wise to paint herself as the Virgin Queen’s pregnant twin—the two women didn’t even look alike in real life. We are asked to believe that Lady Essex decided to co-opt the queen’s symbol of the goddess Diana in a nearly nude portrait in which the deer, presumably representing her husband Essex, was being crowned by the queen?
Lee Durkee (Stalking Shakespeare: A Memoir of Madness, Murder, and My Search for the Poet Beneath the Paint)
Flower of life: A figure composed of evenly-spaced, overlapping circles creating a flower-like pattern. Images of the Platonic solids and other sacred geometrical figures can be discerned within its pattern. FIGURE 3.14 FLOWER OF LIFE The Platonic solids: Five three-dimensional solid shapes, each containing all congruent angles and sides. If circumscribed with a sphere, all vertices would touch the edge of that sphere. Linked by Plato to the four primary elements and heaven. FIGURE 3.15 PENTACHORON The applications of these shapes to music are important to sound healing theory. The ancients have always professed a belief in the “music of the spheres,” a vibrational ordering to the universe. Pythagorus is famous for interconnecting geometry and math to music. He determined that stopping a string halfway along its length created an octave; a ratio of three to two resulted in a fifth; and a ratio of four to three produced a fourth. These ratios were seen as forming harmonics that could restore a disharmonic body—or heal. Hans Jenny furthered this work through the study of cymatics, discussed later in this chapter, and the contemporary sound healer and author Jonathan Goldman considers the proportions of the body to relate to the golden mean, with ratios in relation to the major sixth (3:5) and the minor sixth (5:8).100 Geometry also seems to serve as an “interdimensional glue,” according to a relatively new theory called causal dynamical triangulation (CDT), which portrays the walls of time—and of the different dimensions—as triangulated. According to CDT, time-space is divided into tiny triangulated pieces, with the building block being a pentachoron. A pentachoron is made of five tetrahedral cells and a triangle combined with a tetrahedron. Each simple, triangulated piece is geometrically flat, but they are “glued together” to create curved time-spaces. This theory allows the transfer of energy from one dimension to another, but unlike many other time-space theories, this one makes certain that a cause precedes an event and also showcases the geometric nature of reality.101 The creation of geometry figures at macro- and microlevels can perhaps be explained by the notion called spin, first introduced in Chapter 1. Everything spins, the term spin describing the rotation of an object or particle around its own axis. Orbital spin references the spinning of an object around another object, such as the moon around the earth. Both types of spin are measured by angular momentum, a combination of mass, the distance from the center of travel, and speed. Spinning particles create forms where they “touch” in space.
Cyndi Dale (The Subtle Body: An Encyclopedia of Your Energetic Anatomy)
It was nip, tuck, and a costly speeding ticket, but he managed to each the library in time...
Charlotte MacLeod (Rest You Merry (Peter Shandy, #1))
My favorite time to write is in the late afternoon, weekdays, particularly Wednesday. This is how I go about it: I take a fresh pot of tea into my study and close the door. Then I remove my clothes and leave them in a pile as if I had melted to death and my legacy consisted of only a white shirt, a pair of pants, and a pot of cold tea. Then I remove my flesh and hand it over a chair. I slide if off my bones like a silken garment. I do this so that what I write will be pure, Completely rinsed of the carnal, uncontaminated by the preoccupations of the body. Finally I remove each of my organs and arrange them On a small table near the window. I do not want to hear their ancient rhythms when I am trying to tap out my own drumbeat. Now I sit down at the desk, ready to begin. I am entirely pure: nothing but a skeleton at a typewriter. I should mention that sometimes I leave my penis on. I find it difficult to ignore the temptation. Then I am a skeleton with a penis at a typewriter. In this condition I write extraordinary love poems most of them exploiting the connection between sex and death. I am concentration itself: I exist in a universe where there is nothing but sex, death, and typewriting. After a spell of this I remove my penis too. Then I am all skull and bones typing into the afternoon. Just the absolute essentials, no flounces. Now I write only about death, most classical of themes in language light as the air between my ribs. Afterward, I reward myself by going for a drive at sunset. I replace my organs and slip back into my flesh and clothes. Then I back the car out of the garage and speed through woods on winding country roads, passing stone walls, farmhouses, and frozen ponds, all perfectly arranged like words in a famous sonnet.
Billy Collins
Several of the filmʼs key sound effects were accomplished musically, the most famous being the monsterʼs roars, which went beyond the sound departmentʼs capabilities.  Various animal noises were recorded and modified but nothing worked until Ifukube came to the rescue by using a contrabass (basically a large bass fiddle); however the only one in existence in all Japan was at the prestigious Tokyo Music Conservatoryʼs Music Department which was not about to loan-out their precious instrument for the purpose of making a monster movie.  So one night Ifukube “borrowedˮ it, removed its lowest string, then had pupil Sei Ikuno stroke the remaining strings with a coarse leather glove coated with resin.  The sound was then tape-recorded before being played backwards at a slower speed supplemented with echo-chamber mixing, and the different roars were achieved by changing the playback speeds, giving the monster a melodic quality (the sound of the monster using its radioactive ray was a sped-up cymbal roll).
Peter Brothers (Atomic Dreams and the Nuclear Nightmare: The Making of Godzilla (1954))
Caesar advanced with such force that it provoked Cicero, the famous writer and Senator of the time, to famously remark, “The wariness and speed of that monster are terrifying
Henry Freeman (Julius Caesar: A Life From Beginning to End (One Hour History Military Generals Book 4))
and memorizing are actively worked out in the process of solving the cube. Sharpens visual and spatial analysis – Solving the cube requires one to visually analyze the spatial relationships between each piece of the cube so that they can determine their next moves. Improves concentration and attention to details – By constantly practicing to solve the cube, one can improve their resistance to external distractions and learn to focus better on what’s in their hands. Enhances memorization skills – To solve the cube using algorithms, one should be able to memorize the moves and notations exactly as specified and apply them without missing or forgetting one move. Stimulates quick-thinking – Cube solvers, especially speed-cubers, should be
James Rubik (Rubik’s Cube: How To Solve The Famous Cube In 3 Easy Ways!)
How did Facebook successfully overcome the growth limiter of operational scalability? On the technology side, one of the philosophies that helped Facebook become successful was its famous motto “Move fast and break things.” This emphasis on speed, which came directly from Mark Zuckerberg, allowed Facebook to achieve rapid product development and continuous product improvement. Even today, every new software engineer who joins Facebook is asked to make a revision to the Facebook codebase (potentially affecting millions or even billions of users) on his or her first day of work. However, as Facebook’s user base and engineering team grew to a massive size, Mark had to change the philosophy to “Move fast and break things with stable infrastructure.
Reid Hoffman (Blitzscaling: The Lightning-Fast Path to Building Massively Valuable Companies)
She stared at the water until the sun’s reflection became too much, and then reached for her single bag of belongings. Digging around, she found the clay turtle. It was made of earth. It was tiny. She could use it for practice. Small, she thought as she cradled it with both hands. Precise. Silent. Small. She curled her lips in concentration. It was like crooking the tip of her pinky while wiggling her opposite ear. She needed a whole-body effort to keep her focus sufficiently narrow. There was another reason why she didn’t want to seek instruction from a famous bending master with a sterling reputation and wisdom to spare. Such a teacher would never let her kill Jianzhu in cold blood. Her hunger to learn all four elements had nothing to do with becoming a fully realized Avatar. Fire, Air, and Water were simply more weapons she could bring to bear on a single target. And she had to bring her earthbending up to speed too. Small. Precise. The turtle floated upward, trembling in the air. It wasn’t steady the way bent earth should be, more of a wobbling top on its last few spins. But she was bending it. The smallest piece of earth she’d ever managed to control. A minor victory. This was only the beginning of her path. She would need much more practice to see Jianzhu broken in pieces before her feet, to steal his world away from him the way he had stolen hers, to make him suffer as much as possible before she ended his miserable worthless life— There was a sharp crack. The turtle fractured along innumerable fault lines. The smallest parts, the blunt little tail and squat legs, crumbled first. The head fell off and bounced over the edge of the saddle. She tried to close her grip around the rest of it and caught only dust. The powdered clay slipped between her fingers and was taken by the breeze. Her only keepsake of Kelsang flew away on the wind.
F.C. Yee (Avatar: The Rise of Kyoshi (The Kyoshi Novels, #1))
In 2018, a 32-year-old US woman, Lauren Cutshaw, was arrested after speeding through a stop sign. She became famous for having asked the police to let her off because she is “a clean, thoroughbred white girl”.
Nayden Kostov (323 Disturbing Facts about Our World)
You’re not going to have kids?” Carson asks. “I would have thought you needed someone to carry on the famous Orson Ass.” I pause, my mind reeling. Holy. Fuck. “Hell, I didn’t even think about that.” I grip my forehead in distress. “Great, look what you just did,” Knox says while I pick up my phone to text Dottie. “Don’t text Dottie, Carson was just being a dick.” “No, this is not something we considered. We need to talk about this, right away.” I excuse myself from the table and weave my way through the restaurant until I find a quiet corner near the bathrooms. I dial “Bae’s” phone number and wait impatiently for her to answer. “Hey, aren’t you are at brunch with the boys?” she asks when she answers. “Dottie, we didn’t talk about something really important and now I’m freaking the fuck out.” “What did we not talk about?” she calmly asks. “You know that conversation we had awhile back about not having any kids?” “Yesss,” she drags out. I glance around to make sure no one is listening to me, stuff my hand in my pocket and quietly ask, “What about my butt?” Silence. Then . . . “Uh, what about your butt?” “You know . . .” “I really don’t know and I have a meeting in ten minutes, so if you can speed this up, I’d appreciate it.” “Dottie, if we don’t have kids, my butt dies with me.” “Your butt is dying with you either way, unless you have some sort of insane idea that I get your butt molded in gold or something, which although I wouldn’t put that past you, it’s not happening. Is that what you mean? You want to mold your butt and give it to our kids? You know I’m all about weird gifts but that’s just not something you should give your offspring.” “I’m not talking about that, but thanks for the idea, writing that in my will.” I hear her exaggerated breath. “I’m saying if we don’t have kids, I won’t pass my butt genes on to anyone and is that really fair to the human race? To stop my butt here?” “You’re serious?” “Dead serious. The butt can’t end with me. And what about my potato salad recipe? No one will say hey, you know what, I have my grandpa’s potato salad recipe I can make to bring to the barbeque. And that’s sacrilege.
Meghan Quinn (The Brentwood Boys (The Brentwood Boys, #1-3))
Consider this famous passage from Galileo: Shut yourself up with some friend in the main cabin below decks on some large ship, and have with you there some flies, butterflies, and other small flying animals. Have a large bowl of water with some fish in it; hang up a bottle that empties drop by drop into a wide vessel beneath it. With the ship standing still, observe carefully how the little animals fly with equal speed to all sides of the cabin. The fish swim indifferently in all directions; the drops fall into the vessel beneath; and, in throwing something to your friend, you need throw it no more strongly in one direction than another, the distances being equal; jumping with your feet together, you pass equal spaces in every direction. When you have observed all these things carefully (though doubtless when the ship is standing still everything must happen in this way), have the ship proceed with any speed you like, so long as the motion is uniform and not fluctuating this way and that. You will discover not the least change in all the effects named, nor could you tell from any of them whether the ship was moving or standing still Galileo’s point is that the absolute velocity of a system of bodies is not detectable by any means available to a scientist who is part of that very system, because the relative motions of the bodies are unaffected by their overall velocity. Only by relating the bodies to some external system can the motion be detected
David Wallace (Philosophy of Physics: A Very Short Introduction (Very Short Introductions))
The financial crisis didn't happen because its techniques didn't work; it happened because they worked all too well. There is an element of truth to Warren Buffett's characterization of these techniques as 'financial weapons of mass destruction.' Securization, credit default swaps, and other derivative securities are the financial equivalent of Einstein's famous formula. Global financial markets contain enormous financial energy, and when detonated in an uncontrolled and irresponsible manner, you get bubbles, crashes, and years of nuclear fallout. But the analogy works both ways - it also implies that when we use these tools carefully and responsibly, we get virtually unlimited power for fueling innovation and economic growth.
Andrew W. Lo (Adaptive Markets: Financial Evolution at the Speed of Thought)
That is often how collaboration works in a Slow Fix. Check your ego at the door, be prepared to share the credit, and let the creative juices start flowing. That was how Monty Python minted some of the most famous sketches in the comedy canon. One member of the troupe, John Cleese, summed up the genesis thus: “The really good idea is always traceable back quite a long way, often to a not very good idea which sparked off another idea that was only slightly better, which somebody else misunderstood in such a way that they then said something which was really rather interesting.
Carl Honoré (The Slow Fix: Solve Problems, Work Smarter, and Live Better In a World Addicted to Speed)
Goethe refused to view color as a static quantity, to be measured in a spectrometer and pinned down like a butterfly to cardboard. He argued that color is a matter of perception. “With light poise and counterpoise, Nature oscillates within her prescribed limits,” he wrote, “yet thus arise all the varieties and conditions of the phenomena which are presented to us in space and time.” The touchstone of Newton’s theory was his famous experiment with a prism. A prism breaks a beam of white light into a rainbow of colors, spread across the whole visible spectrum, and Newton realized that those pure colors must be the elementary components that add to produce white. Further, with a leap of insight, he proposed that the colors corresponded to frequencies. He imagined that some vibrating bodies—corpuscles was the antique word—must be producing colors in proportion to the speed of the vibrations. Considering how little evidence supported this notion, it was as unjustifiable as it was brilliant. What is red? To a physicist, it is light radiating in waves between 620 to 800 billionths of a meter long. Newton’s optics proved themselves a thousand times over, while Goethe’s treatise on color faded into merciful obscurity.
James Gleick (Chaos: Making a New Science)
There’s a car racing metaphor I find helpful when I’m trying to remind myself to look up from my laptop and take a break. When I was a child, I visited the maintenance pit of the famous Silverstone Formula One racetrack, and of course it was fascinating to learn about the tire switches and refueling that mechanics were able to do in just a few seconds. But what stayed with me most was the idea that success was determined not only by the car’s speed on the track, but also by the “pit strategy”—the race team’s scheduled pit stops. Each stop was a tactical investment in performance, a deliberate slowing down, to enable the car to speed up afterward. Pit stops are not wasted time—they’re an essential part of an efficient, well-planned race. And your brain is like that race car. Downtime is as important to your work as every other part of your day, and you need to make sure you get enough of that time throughout the day. Plan for it, protect it, respect it.
Caroline Webb (How To Have A Good Day: The Essential Toolkit for a Productive Day at Work and Beyond)
Filippo Marinetti – a fan of cycling – who wrote in the movement’s manifesto, ‘We affirm that the beauty of the world has been enriched by a new form of beauty: the beauty of speed,’ or even Aldous Huxley who famously quipped, ‘Speed, it seems to me, provides the one genuinely modern pleasure.
James Hibbard (The Art of Cycling: Philosophy, Meaning, and a Life on Two Wheels)