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To get the best answer-in business, in life-you have to ask the best possible question. Innovation expert Warren Berger shows that ability is both an art and a science. It may be the most underappreciated tool at our disposal, one we learn to use well in infancy-and then abandon as we grow older. Critical to learning, innovation, success, even to happiness-yet often discouraged in our schools and workplaces-it can unlock new business opportunities and reinvent industries, spark creative insights at many levels, and provide a transformative new outlook on life. It is the ability to question-and to do so deeply, imaginatively, and “beautifully.” In this fascinating exploration of the surprising power of questioning, innovation expert Warren Berger reveals that powerhouse businesses like Google, Nike, and Netflix, as well as hot Silicon Valley startups like Pandora and Airbnb, are fueled by the ability to ask fundamental, game-changing questions. But Berger also shares human stories of people using questioning to solve everyday problems-from “How can I adapt my career in a time of constant change?” to “How can I step back from the daily rush and figure out what really makes me happy?” By showing how to approach questioning with an open, curious mind and a willingness to work through a series of “Why,” “What if,” and “How” queries, Berger offers an inspiring framework of how we can all arrive at better solutions, fresh possibilities, and greater success in business and life.
What makes ice cubes cloudy? How do shark attacks make airplanes safer? Can a person traveling in a car at the speed of sound still hear the radio? Moreover, would they want to...? Do you often find yourself pondering life's little conundrums? Have you ever wondered why the ocean is blue? Or why birds don't get electrocuted when perching on high-voltage power lines? Robert L. Wolke, professor emeritus of chemistry at the University of Pittsburgh and acclaimed author of What Einstein Didn't Know, understands the need to...well, understand. Now he provides more amusing explanations of such everyday phenomena as gravity (If you're in a falling elevator, will jumping at the last instant save your life?) and acoustics (Why does a whip make such a loud cracking noise?), along with amazing facts, belly-up-to-the-bar bets, and mind-blowing reality bites all with his trademark wit and wisdom. If you shoot a bullet into the air, can it kill somebody when it comes down? You can find out about all this and more in an astonishing compendium of the proverbial mind-boggling mysteries of the physical world we inhabit. Arranged in a question-and-answer format and grouped by subject for browsing ease, WHAT EINSTEIN TOLD HIS BARBER is for anyone who ever pondered such things as why colors fade in sunlight, what happens to the rubber from worn-out tires, what makes red-hot objects glow red, and other scientific curiosities. Perfect for fans of Newton's Apple, Jeopardy!, and The Discovery Channel, WHAT EINSTEIN TOLD HIS BARBER also includes a glossary of important scientific buzz words and a comprehensive index. -->
Newton's Laws held for 300 years until Einstein developed the 'special theory of relativity' in 1905. Experiments done since then show anomalies in that theory. This book starts with a description of the special theory of relativity. It is shown that Einstein was not the first to derive the famous equation E = mc2, which has become synonymous with his name. Next, experimental evidence that cannot be explained by special relativity is given. In the light of this evidence, the two basic postulates of the special theory of relativity on the behaviour of light are shown to be untenable. A new theory (universal relativity) is developed, which conforms to the experimental evidence. The movement of a conductor near a pole of a magnet and the movement of that pole near the conductor does not always give the same result. It has been claimed that this contradicts relativity theory. Experiments described in this book show that it is not special relativity but another basic law of physics that is contradicted - Faraday's Law. The Big Bang theory of the beginning of the universe is questioned and an alternative proposed. The source of much of the mysterious missing 'dark matter' that has been sought for decades by astronomers is located. An explanation of the shapes of some galaxies is proffered. This book presents an alternative to Einstein's special theory of relativity, solves many problems left unanswered by special relativity, gives a better fit to many phenomena and experimental data and is more philosophically appealing. It is recommended to all people interested in fundamental issues of physics and cosmology. Professor Andre Assis, Brazil The book treats its subject properly, not just as an impersonal set of equations, but rather as a developing saga full of human triumph and failure. One learns from both experimental results and simple logical argument that all is not well with modern physics. Dr. Neal Graneau, Oxford University, U.K. Irish engineer solves the dark secrets of space. Sunday Times, U.K. Einstein got relativity theory wrong. Bangkok Post, Thailand
After sending a math problem to Albert Einstein at his home in New Jersey, young April begins to worry that maybe the genius is doing other things, such as playing his violin and riding his bike, rather than working on her problem.
The blockbuster phenomenon that charts an amazing journey of the mind while revolutionizing our concept of memory “Highly entertaining.” —Adam Gopnik, The New Yorker “Funny, curious, erudite, and full of useful details about ancient techniques of training memory.” —The Boston Globe An instant bestseller that has now become a classic, Moonwalking with Einstein recounts Joshua Foer's yearlong quest to improve his memory under the tutelage of top "mental athletes." He draws on cutting-edge research, a surprising cultural history of remembering, and venerable tricks of the mentalist's trade to transform our understanding of human memory. From the United States Memory Championship to deep within the author's own mind, this is an electrifying work of journalism that reminds us that, in every way that matters, we are the sum of our memories.
A boy rides a bicycle down a dusty road. But in his mind, he envisions himself traveling at a speed beyond imagining, on a beam of light. This brilliant mind will one day offer up some of the most revolutionary ideas ever conceived. From a boy endlessly fascinated by the wonders around him, Albert Einstein ultimately grows into a man of genius recognized the world over for profoundly illuminating our understanding of the universe. Jennifer Berne and Vladimir Radunsky invite the reader to travel along with Einstein on a journey full of curiosity, laughter, and scientific discovery. Parents and children alike will appreciate this moving story of the powerful difference imagination can make in any life.
From Newton to Einstein is a book devoted to classical mechanics. "Classical" here includes the theory of special relativity as well because, as argued in the book, it is essentially Newtonian mechanics extended to very high speeds. This information is expanded from the author's popular Q&A website, a site aimed primarily at general readers who are curious about how physics explains the workings of the world. Hence, the answers emphasize concepts over formalism, and the mathematics is kept to a minimum. Students new to physics will find discussion and quantitative calculations for areas often neglected in introductory courses (e.g. air drag and non-inertial frames). The author gives us a more intuitive approach to special relativity than normally taught in introductory courses. One chapter discusses general relativity in a completely non-mathematical way emphasizing the equivalence principle and the generalized principle of relativity; the examples in this chapter can offer a new slant on applications of classical mechanics. Another chapter is devoted to the physics of computer games, sci-fi, superheros, and super weapons for those interested in the intersection of popular culture and science. Professional scientists will find topics that they may find amusing and, in some cases, everyday applications that they had not thought of. Brief tutorials are given for essential concepts (e.g. Newton's laws) and appendices give technical details for the interested reader.
Presents scientific answers to a series of miscellaneous questions, covering such topics as "Why are bubbles round," "Why are the Earth, Sun, and Moon all spinning," and "How you can tell the temperature by listening to a cricket."
The untold story of Albert Einstein's role as the father of quantum theory Einstein and the Quantum reveals for the first time the full significance of Albert Einstein's contributions to quantum theory. Einstein famously rejected quantum mechanics, observing that God does not play dice. But, in fact, he thought more about the nature of atoms, molecules, and the emission and absorption of light—the core of what we now know as quantum theory—than he did about relativity. A compelling blend of physics, biography, and the history of science, Einstein and the Quantum shares the untold story of how Einstein—not Max Planck or Niels Bohr—was the driving force behind early quantum theory. It paints a vivid portrait of the iconic physicist as he grappled with the apparently contradictory nature of the atomic world, in which its invisible constituents defy the categories of classical physics, behaving simultaneously as both particle and wave. And it demonstrates how Einstein's later work on the emission and absorption of light, and on atomic gases, led directly to Erwin Schrödinger's breakthrough to the modern form of quantum mechanics. The book sheds light on why Einstein ultimately renounced his own brilliant work on quantum theory, due to his deep belief in science as something objective and eternal.
If you are looking for a top-rated science textbook, this is not the book for you. If you are looking for a reiteration of the historical progression of the physical sciences by a well-educated, experienced scientist, this book's not for you. However, if you are interested in considering logical thinking that is outside the scientific box and that challenges conventional science concepts, this may be the book for you.The entire first section presents a logical, convincing argument that concludes that the problem Einstein solved with his special theory of relativity never existed in the first place. There is nothing wrong with his reasoning or mathematical equations that address the problem he believed existed. There just was not a real problem to begin with. The whole section is an excellent tutorial on Einstein and relativity for anyone who is interested in understanding relativity, whether the reader agrees or disagrees with the conclusions.The second section is a tutorial on electrons and their role in the production of light, the reflection and refraction of light, and the role of electrons in the production of electricity, electronic device function, and heat. All tutorials are written in laymen's easy-to-read language.The third section examines many outside-the-box hypotheses in the realm of theoretical physics. This book is packed with easy-to-read nonmathematical explanations of physical phenomena, ranging from the appearance and properties of electrons to the construction of matter from particles and energy fields. Have you ever wondered what charge is or why electrons do not fly apart from internal repulsive forces or spiral into the nucleus of atoms? Is light a continuous wave or pulses of electromagnetic field? Why do moving electromagnetic fields not have positive and negative charge or north and south poles? How does light reflect off itself? Why is your car battery attached to the body of the car? How do atoms attract to form molecules when their electrons repel one another? These and other questions are answered, often in unconventional ways, but others may not be answered at all. If you need a science research project or a dissertation idea, this book is for you. If you do not need it for a project but you just have an interest in better understanding science, this book is for you. If you have an open mind enough to at least consider alternate ways of thinking about scientific concepts and principles, this book is definitely for you.