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Books : Science : Physics
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In this groundbreaking union of art and science, rocker-turned-neuroscientist Daniel J. Levitin explores the connection between music—its performance, its composition, how we listen to it, why we enjoy it—and the human brain. Drawing on the latest research and on musical examples ranging from Mozart to Duke Ellington to Van Halen, Levitin reveals:
• How composers produce some of the most pleasurable effects of listening to music by exploiting the way our brains make sense of the world
• Why we are so emotionally attached to the music we listened to as teenagers, whether it was Fleetwood Mac, U2, or Dr. Dre
• That practice, rather than talent, is the driving force behind musical expertise
• How those insidious little jingles (called earworms) get stuck in our heads
And, taking on prominent thinkers who argue that music is nothing more than an evolutionary accident, Levitin argues that music is fundamental to our species, perhaps even more so than language. This Is Your Brain on Music is an unprecedented, eye-opening investigation into an obsession at the heart of human nature.
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Science has recently begun to prove what ancient myth and religion have always espoused: There may be such a thing as a life force.
In this groundbreaking classic, investigative journalist Lynne McTaggart reveals a radical new paradigm—that the human mind and body are not separate from their environment but a packet of pulsating power constantly interacting with this vast energy sea, and that consciousness may be central in shaping our world.
The Field is a highly readable scientific detective story presenting a stunning picture of an interconnected universe and a new scientific theory that makes sense of supernatural phenomena. Documented by distinguished sources, The Field is a book of hope and inspiration for today's world.
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A lively astronomy primer that uses cataclysmic scenarios to explain the universe’s most fascinating events.
According to astronomer Philip Plait, the universe is an apocalypse waiting to happen But how much do we really need to fear from things like black holes, gamma-ray bursts, and supernovae? And if we should be scared, is there anything we can do to save ourselves? With humor and wit, Plait details the myriad doomsday events that the cosmos could send our way to destroy our planet and life as we know it. This authoritative yet accessible study is the ultimate astronomy lesson.
Combining fascinating—and often alarming—scenarios that seem plucked from science fiction with the latest research and opinions, Plait illustrates why outer space is not as remote as most people think. Each chapter explores a different phenomenon, explaining it in easy-to-understand terms, and considering how life on earth and the planet itself would be affected should the event come to pass. Rather than sensationalizing the information, Plait analyzes the probability of these catastrophes occurring in our lifetimes and what we can do to stop them. With its entertaining tone and enlightening explanation of unfathomable concepts, Death from the Skies! will appeal to science buffs and beginners alike.
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A fascinating exploration of the science of the impossible—from death rays and force fields to invisibility cloaks—revealing to what extent such technologies might be achievable decades or millennia into the future.
One hundred years ago, scientists would have said that lasers, televisions, and the atomic bomb were beyond the realm of physical possibility. In Physics of the Impossible, the renowned physicist Michio Kaku explores to what extent the technologies and devices of science fiction that are deemed equally impossible today might well become commonplace in the future.
From teleportation to telekinesis, Kaku uses the world of science fiction to explore the fundamentals—and the limits—of the laws of physics as we know them today. He ranks the impossible technologies by categories—Class I, II, and III, depending on when they might be achieved, within the next century, millennia, or perhaps never. In a compelling and thought-provoking narrative, he explains:
· How the science of optics and electromagnetism may one day enable us to bend light around an object, like a stream flowing around a boulder, making the object invisible to observers “downstream”
· How ramjet rockets, laser sails, antimatter engines, and nanorockets may one day take us to the nearby stars
· How telepathy and psychokinesis, once considered pseudoscience, may one day be possible using advances in MRI, computers, superconductivity, and nanotechnology
· Why a time machine is apparently consistent with the known laws of quantum physics, although it would take an unbelievably advanced civilization to actually build one
Kaku uses his discussion of each technology as a jumping-off point to explain the science behind it. An extraordinary scientific adventure, Physics of the Impossible takes readers on an unforgettable, mesmerizing journey into the world of science that both enlightens and entertains.
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Gauss's law for electric fields, Gauss's law for magnetic fields, Faraday's law, and the Ampere-Maxwell law are four of the most influential equations in science. In this guide for students, each equation is the subject of an entire chapter, with detailed, plain-language explanations of the physical meaning of each symbol in the equation, for both the integral and differential forms. The final chapter shows how Maxwell's equations may be combined to produce the wave equation, the basis for the electromagnetic theory of light. This book is a wonderful resource for undergraduate and graduate courses in electromagnetism and electromagnetics. A website hosted by the author at www.cambridge.org/9780521701471 contains interactive solutions to every problem in the text as well as audio podcasts to walk students through each chapter.
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Product Description
From one of America's leading physicists--a moving and visually stunning futuristic re-imagining of the Icarus fable written for kids and those journeying with them toward a deeper appreciation of the cosmos.With a minimum of words set on 34 full color boardbook pages, Icarus travels not to the sun, but to a black hole, and in so doing poignantly dramatizes one of Einstein's greatest insights.
Unlike anything Brian Greene has previously written, Icarus at the Edge of Time uses the power of story, not pedagogy, to communicate viscerally one small part of the strange reality that has emerged from modern physics. Designed by Chip Kidd, with spectacular images from the Hubble Space Telescope, it's a short story that speaks to curiosity and wisdom in a universe we've only begun to fathom.
An Interview with Author Brian Greene
Q: After writing two big four-hundred-plus page bestselling books, what made you decide to write an illustrated book for all ages?
A: There's an emotional side to science which the general public rarely experiences. When Einstein's calculations in 1916 showed that his new general theory of relativity could explain strange aspects of the planet Mercury's motion, he experienced--by his own description--heart palpitations. He'd revealed a fundamental cosmic truth and it filled him with awe and reverie. Yet, by contrast, in the public sphere science is still largely viewed as merely a cold body of knowledge. To many people, science is aloof, distant, abstract. I remember, some years back, reading a poem of Whitman’s about an astronomy student who grows tired and frustrated by his professor's teachings, and blissfully leaves the class to go outside, look skyward, and simply experience the wonderment of the star filled heavens. There are many for whom this poem would resonate. This highlights for me the need for people to connect with science in a new way--outside of the classroom and beyond the textbooks. My two previous books tried to make some heady ideas of modern physics widely available, and they did this through straightforward exposition. In Icarus At The Edge Of Time, my intention is to open a different kind of avenue onto science--a more visceral, more emotional side that a fictional narrative more readily accesses.
Q: Where did the idea to re-imagine the Icarus legend (set in outer space and involving black holes!) come from?
A: I recently told my two and a half year old son a bedtime story that involved space travelers moving near the speed of light. Within days he was telling his own animated stories of dinosaurs and monsters outrunning a new and wonderful concept--"the speed of dark." Which got me thinking. Storytelling is our most basic and powerful means of communication. We listen with a different kind of intensity--and open ourselves most fully--to a gripping tale. So why not allow some of science’s greatest wonders to be experienced not through pedagogy but through the force of narrative? Science in fiction, as opposed to science fiction. Scientific insights that are absorbed rather than studied. Icarus At The Edge Of Time is my first attempt to explore this terrain. Instead of a journey near the sun--a "light" star--Icarus heads to a black hole--a "dark" star. And then the wonders of Einstein's relativity kick in, warping the more familiar ending into a painful conclusion, to be sure, but perhaps one that's more hopeful than the original.
Q: The story of Icarus is a cautionary tale, what do you think it has to say when applied (as it is here) to the nature of scientific exploration of the universe?
A: Great scientists are great adventurers, boldly exploring unknown terrain--"anxiously searching" as Einstein once put it "for a truth one feels but cannot find, until final emergence into the light." Icarus's fearlessness fits this profile to a "T". But there's another side to scientific exploration. Scientific research has the capacity to reveal realms that turn the status quo on its head. And when this happens, we're often not prepared--as a society we're often not sufficiently mature--to take on the responsibility that such new realms can require.
From nuclear knowledge to stem cells, from global climate change to cloning, science not only opens up new vistas but confronts us with profound challenges. In this new version of the Icarus tale, Icarus's unrestrained explorations take him, literally, to a startling new realm--one in which the universe as he knew it becomes forever beyond his reach. We can imagine him maturing into his new life and experience, but we also feel the wrenching pain of his being torn from his familiar reality--and from his family--and entering a completely new world--the very process of maturation we collectively navigate as science rewrites the rules of what's possible.
Q: Who do you see as the audience for this book?
A: The intended audience is broad. While I've found that science-enthusiasts get a big kick out of the story (it's not often that general relativity is the lynch pin in a narrative!), I wrote the story with two kinds of imaginary readers looking over my shoulder--adults who don't generally have much contact with science, and kids who love a short adventure story.
Q: Since the writing of your last book you have become a father. How has fatherhood impacted you as a writer?
A: I feel a stronger urge to go beyond a connection with readers that's purely intellectual. The intellectual side is critical of course. But I think you communicate far more effectively if you can engage the reader on multiple levels. I've always felt this way. But I now experience it everyday--all the time--with my son, and also my one-year-old daughter. Fatherhood has heightened my recognition that to communicate you need an emotional link.
Q: Your passion for science and making it come alive for people of all ages is well known--as evidenced through your founding of The World Science Festival and also in a recent New York Times op-ed in which you wrote about "the powerful role science can play in giving life context and meaning," and stated, "It's the birthright of every child, it's a necessity for every adult, to look out on the world . . . and see that the wonder of the cosmos transcends everything that divides us." How do you feel about the way Science is taught in most schools today and what would be the biggest changes you would recommend?
A: We need to get beyond the urge--however important--of merely teaching kids the results of science, the methods of science. We need to communicate the stories of science. If a kid thinks of science as a subject taught in a classroom, we've failed. Kids need to think of science as the greatest of adventure stories as we've sought to understand ourselves and the universe around us. Kids need to recognize that science is a perspective, a way of life--it's something you hold with you long, long after you leave the classroom.
Q: What were some of the books that most inspired your passion for Science?
A: When I was really young, it wasn't actually books that inspired me. It was great teachers. From my dad (a self-educated high-school drop-out) to a couple of public school teachers where I grew up in New York City, I was fortunate to be surrounded by people who knew how to nurture and excite a young mind.
Q: So do you think anyone will ever actually find out what happens at the center of a black hole?
A: Absolutely. But not by jumping in.
Q: Is it a challenge, as a physicist and mathematician to write in a way that everyone understands?
A: It is a challenge, but for me its both a useful and exciting one. I find that translating cutting-edge research into more familiar language forces me to strip away extraneous details and zero in on the core ideas. Often, this helps me to organize my own thoughts and has even suggested research directions. And it's exciting to see ideas that are close to my heart and those of other researchers in the field reach a wider audience. The questions we are tackling are universal, and everyone deserves the right to enjoy the progress we're making.
Q: What are black holes and what do they tell us about the nature of universe?
A: Black holes are regions of space filled with such intense gravity that anything which gets too close, even light, is unable to escape. Although Albert Einstein’s insights led to the idea of black holes, he remained skeptical about their existence. Yet, in the decades since, a wealth of astronomical observations have provided strong evidence that black holes not only exist in the cosmos, they’re commonplace.
Black holes have a profound effect on time: their gravitational force pulls on time itself, slowing its rate of passage ever more as one gets ever nearer a black hole’s edge. Because of this, black holes provide for a specific kind of time travel. Were you to hover near the edge of a black hole, time for you would pass more slowly than for everyone else who remained far away. On returning to Earth you would thus find that hundreds or even thousands of years had elapsed, depending on the size of the black hole and how close you ventured to its edge.
Scientists still haven’t figured out what happens at the very center of a black hole. Einstein’s mathematics breaks down and so provides no insight. Some scientists have suggested that a black hole’s center is where time comes to an end while others have proposed that it’s a portal to another universe. Finding the definitive answer is widely recognized as one of the great remaining challenges in our continuing quest to understand space, time and the cosmos.
Q: How close are we to really understanding the nature of the universe?
A: Sometimes I think the final theory is just around the corner. Sometimes I think such thoughts are naive. The bottom line is I don't know, but what we're learning is so startling, that in a way it doesn't matter. When or if we reach the deepest understanding, it will be a major moment for our species. But until then, making progress at unraveling the cosmos is its own reward.
Q: Where did you get the idea to illustrate this book with photos from the Hubble Space Telescope?
A: That was Chip Kidd's idea. On reading the story he immediately felt that an abstract, as opposed to literal, visual treatment would be most effective. I agreed completely. And was kind of blown away when he came up with this design. It is so simple, but so powerful.
(Photo Credit: Andrea Cross)
Designer Chip Kidd Discusses His Vision for Icarus at the Edge of Time
Q: So Chip, where did the inspiration for this design come from?
A: The genesis, if you will, of the design and art direction of Icarus at the Edge of Time represents (for me), a prime example of design challenges at its purest and most exhilarating. In the spring of 2007, Marty Asher (Brian Greene's editor at Knopf) brought me Brian's manuscript of a fable of a teenage boy-genius (Icarus) who lives on a starship heading back to Earth after a generations-long mission and, against the stern warnings of his scientist father, commandeers a sort of pod-ship to go explore a black hole. When he returns from doing so, he finds that everything he knew has changed, and he learns a devastating lesson.
The story takes place in deep space, and as I was reading it, my mind instantly flashed to those incredible images that have been beamed back from the Hubble telescope. A quick investigation into the Hubble website bore out the fact that a) these images are in the public domain, and b) you can literally download good hi-resolution files of them from the site. Honestly, this discovery made me feel good about paying my taxes for the first time in decades. Anyway, the idea was born to illustrate the text metaphorically rather than literally. Although it is a fantastic tale, Brian grounds it in very real science, so the most appropriate thing was to show actual pictures of space (which happen to be jaw-droppingly gorgeous) as opposed to having someone draw or paint them.
In that sense it became like designing the cover of Jurassic Park all over again--you start with something concrete and real (a diagram of an existing T-Rex skeleton) and apply it to a fictional conceit. So you end up with what just might be outside Icarus's window as he hurtles through space. Added to that is a graphic element that represents the approaching and receding black hole, which is literally that--a small black circle appears smack dab in the center of the second spread and slowly grows as you read the book. Then, when it's so relatively large it threatens to completely consume everything, it slowly starts shrink (as Icarus pulls the pod-craft back away from it), until by the end of the book it disappears and is replaced by the Earth. If you have trouble picturing that, you'll just have to see the book! I thank Brian for the opportunity to work on it, and urge you all to check it out. Learning scientific space-physics was never so beautiful. –CK
(Photo Courtesy of Chip Kidd)
A Look Inside Icarus at the Edge of Time
(Click on Images to Enlarge)
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The author of the New York Times bestseller and Los Angeles Times Book Award Finalist This Is Your Brain on Music tunes us in to six evolutionary musical forms that brought about the evolution of human culture.
An unprecedented blend of science and art, Daniel Levitin's debut, This Is Your Brain on Music, delighted readers with an exuberant guide to the neural impulses behind those songs that make our heart swell. Now he showcases his daring theory of "six songs," illuminating how the brain evolved to play and listen to music in six fundamental forms—for knowledge, friendship, religion, joy, comfort, and love. Preserving the emotional history of our lives and of our species, from its very beginning music was also allied to dance, as the structure of the brain confirms; developing this neurological observation, Levitin shows how music and dance enabled the social bonding and friendship necessary for human culture and society to evolve.
Blending cutting-edge scientific findings with his own sometimes hilarious experiences as a musician and music-industry professional, Levitin's sweeping study also incorporates wisdom gleaned from interviews with icons ranging from Sting and Paul Simon to Joni Mitchell, and David Byrne, along with classical musicians and conductors, historians, anthropologists, and evolutionary biologists. The result is a brilliant revelation of the prehistoric yet elegant systems at play when we sing and dance at a wedding or cheer at a concert—or tune out quietly with an iPod.
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Physicist’ understanding of the essential nature of reality changed radically over the past quarter century. Frank Wilczek has played a lead role in establishing the new paradigms. Transcending the clash and mismatch of older ideas about what matter is, and what space is, Wilczek presents here some brilliant and clear syntheses. Space is a dynamic material, the engine of reality; matter is a subtle pattern of disturbance in that material.Extraordinarily readable and authoritative, The Lightness of Being is the first book to unwrap these exciting new ideas for the general public. It explores their implications for basic questions about space, mass, energy, and the longed-for possibility of a fully unified theory of Nature. Along the way, Wilczek presents new perspectives on many strange aspects of our fantastic universe. Pointing toward new directions where the great discoveries in fundamental physics are likely to come, he envisions a new Golden Age in physics.
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Stephen Hawking’s worldwide bestseller, A Brief History of Time, has been a landmark volume in scientific writing. Its author’s engaging voice is one reason, and the compelling subjects he addresses is another: the nature of space and time, the role of God in creation, the history and future of the universe. But it is also true that in the years since its publication, readers have repeatedly told Professor Hawking of their great difficulty in understanding some of the book’s most important concepts.
This is the origin of and the reason for A Briefer History of Time: its author’s wish to make its content more accessible to readers—as well as to bring it up-to-date with the latest scientific observations and findings.
Although this book is literally somewhat “briefer,” it actually expands on the great subjects of the original. Purely technical concepts, such as the mathematics of chaotic boundary conditions, are gone. Conversely, subjects of wide interest that were difficult to follow because they were interspersed throughout the book have now been given entire chapters of their own, including relativity, curved space, and quantum theory.
This reorganization has allowed the authors to expand areas of special interest and recent progress, from the latest developments in string theory to exciting developments in the search for a complete unified theory of all the forces of physics. Like prior editions of the book—but even more so—A Briefer History of Time will guide nonscientists everywhere in the ongoing search for the tantalizing secrets at the heart of time and space.
From the Hardcover edition.
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For most Americans, the word NASA suggests a squeaky-clean image of technological infallibility.
Yet the truth is that NASA was born in a lie, and has concealed the truths about its occult origins. Dark Mission documents this seemingly wild assertion.
Why is the Bush administration intent on returning to the moon as quickly as possible? What are the reasons for the current “space race” with China, Russia, even India? Remarkable images reproduced within this book provided to author Richard C. Hoagland by disaffected NASA employees provide clues why, including information about suppressed lunar discoveries.
Mystical organizations quietly dominate NASA, carrying out their own secret agendas behind the scenes. This is the story of men at the very fringes of rational thought and conventional wisdom, operating at the highest levels of our country. Their policies are far more aligned with ancient religions and secret mystery schools than the facade of rational science NASA has successfully promoted to the world for almost fifty years.
Dark Mission is proof of the secret history of the National Aeronautics and Space Administration and the astonishing, seminal discoveries it has repeatedly suppressed for decades.
Richard C. Hoagland is the former science advisor to CBS News, author of The Monuments of Mars, and a frequent guest on the popular radio programs Coast To Coast and The Art Bell Show.
Mike Bara is a consulting engineer for Boeing aircraft. This is his first book.
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Today nearly everyone is familiar with holograms, three-dimensional images projected into space with the aid of a laser. Now, two of the world's most eminent thinkers -- University of London physicists David Bohm, a former protege of Einstein's and one of the world's most respected quantum physicists, and Stanford neurophysiologist Karl Pribram, one of the architects of our modern understanding of the brain -- believe that the universe itself may be a giant hologram, quite literally a kind of image or construct created, at least in part, by the human mind. This remarkable new way of looking at the universe explains now only many of the unsolved puzzles of physics, but also such mysterious occurrences as telepathy, out-of-body and near death experiences, "lucid" dreams, and even religious and mystical experiences such as feelings of cosmic unity and miraculous healings.
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What happens when something is sucked into a black hole? This question has implications for the most fundamental laws of the universe. The scientific battle to prove the answer would change the course of physics.
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In this thrilling journey into the mysteries of our cosmos, bestselling author Michio Kaku takes us on a dizzying ride to explore black holes and time machines, multidimensional space and, most tantalizing of all, the possibility that parallel universes may lay alongside our own.
Kaku skillfully guides us through the latest innovations in string theory and its latest iteration, M-theory, which posits that our universe may be just one in an endless multiverse, a singular bubble floating in a sea of infinite bubble universes. If M-theory is proven correct, we may perhaps finally find answer to the question, “What happened before the big bang?” This is an exciting and unforgettable introduction into the new cutting-edge theories of physics and cosmology from one of the pre-eminent voices in the field.
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