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Sitting on the beach on a sunny summer day, we enjoy the steady advance and retreat of the waves. In the water, enthusiastic waders jump and shriek with pleasure when a wave hits them. But where do these waves come from? How are they formed and why do they break on the shore? In Waves, Fredric Raichlen traces the evolution of waves, from their generation in the deep ocean to their effects on the coast. He explains, in a way that is readily understandable to nonscientists, both the science of waves themselves and the technology that can be used to protect us against their more extreme forms, including hurricanes and tsunamis. After offering a basic definition of waves and explaining the mechanics of wind-wave generation, Raichlen describes how waves travel, how they shoal (rise), how they break, and how they transform in other ways. He goes on to describe, among other things, the complicated sun-Earth-moon combinations that create astronomical tides (the high and low tides that occur daily and predictably); the effects of waves on the beach, including rip currents and beach erosion, and on harbors and shipping; and the building of breakwaters to protect harbors and bays. He discusses hurricanes, storm surges, and hurricane-generated waves. He offers a brief history of tsunamis, including Sumatra's in 2004 and Japan's in 2011, and explains the mechanisms that generate them (including earthquakes, landslides, and volcanoes). Waves can be little ripples that lap peacefully at the shore or monstrous tsunamis that destroy everything in their paths. Describing the science underlying this astonishing variety, Waves offers a different kind of beach reading.
We live in a world of waves. The Earth shakes to its foundations, the seas and oceans tremble incessantly, sounds reverberate through land, sea, and air. Beneath the skin, our brains and bodies are awash with waves of their own, and the Universe is filled by a vast spectrum of electromagnetic radiation, of which visible light is the narrowest sliver. Casting the net even wider, there are mechanical waves, quantum wave phenomena, and the now clearly detected gravitational waves. Look closer and deeper and more kinds of waves appear, down to the most fundamental level of reality. This Very Short Introduction looks at all the main kinds of wave, their sources, effects, and uses. Mike Goldsmith discusses how wave motion results in a range of phenomena, from reflection, diffraction, interference, and polarization in the case of light waves to beats and echoes for sound. All waves, however different, share many of the same features, and, as Goldsmith shows, for all their complexities many of their behaviours are fundamentally simple. ABOUT THE SERIES: The Very Short Introductions series from Oxford University Press contains hundreds of titles in almost every subject area. These pocket-sized books are the perfect way to get ahead in a new subject quickly. Our expert authors combine facts, analysis, perspective, new ideas, and enthusiasm to make interesting and challenging topics highly readable.
A guide to ocean waves traces their evolution from wind-wave generation to coastal effects.
"This book captures the diverse array of issues in the rapidly developing area of philosophy of science by bringing together a pool of talented young philosophers from across the globe to debate the field and show where it's heading"--Provided by publishe
A COMPLETE REVISION AND THOROUGH UPDATING OF THE ULTIMATE REFERENCE FROM THE NEWSPAPER OF RECORD. A comprehensive guide offering insight and clarity on a broad range of even more essential subjects. Whether you are researching the history of Western art, investigating an obscure medical test, following current environmental trends, studying Shakespeare, brushing up on your crossword and Sudoku skills, or simply looking for a deeper understanding of the world, this book is for you. An indispensable resource for every home, office, dorm room, and library, this new edition of The New York Times Guide to Essential Knowledge offers in-depth explorations of art, astronomy, biology, business, economics, the environment, film, geography, history, the Internet, literature, mathematics, music, mythology, philosophy, photography, sports, theater, film, and many other subjects. This one volume is designed to offer more information than any other book on the most important subjects, as well as provide easy-to-access data critical to everyday life. It is the only universal reference book to include authoritative and engaging essays from New York Times experts in almost every field of endeavor. The New York Times Guide to Essential Knowledge provides information with matchless accuracy and exceptional clarity. This new revised and expanded third edition covers major categories with an emphasis on depth and historical context, providing easy access to data vital for everyday living. Covering nearly 50 major categories, and providing an immediate grasp of complex topics with charts, sidebars, and maps, the third edition features 50 pages of new material, including new sections on * Atheism * Digital Media * Inventions and Discoveries * Endangered Species * Inflation * Musical Theater * Book Publishing *Wikileaks *The Financial Crisis *Nuclear Weapons *Energy *The Global Food Supply Every section has been thoroughly updated, making this third edition more useful and comprehensive than ever. It informs, educates, answers, illustrates and clarifies---it's the only one-volume reference book you need.
If you need to maximize efficiency in wireless network planning, an understanding of radio propagation issues is vital, and this 2007 reference guide is for you. Using real-world case studies, practical problems and minimum mathematics, the author explains simply and clearly how to predict signal strengths in a variety of situations. Fundamentals are explained in the context of their practical significance. Applications, including point-to-point radio links, broadcasting and earth-space communications, are thoroughly treated, and more sophisticated methods, which form the basis of software tools for both network planning and spectrum management, are also described. For a rapid understanding and insight into radio propagation, sufficient to enable you to undertake real-world engineering tasks, this concise book is invaluable for network planners, hardware designers, spectrum managers, senior technical managers and policy makers who are either new to radio propagation or who need a quick reference guide.
Gravitational waves (GWs) are a hot topic and promise to play a central role in astrophysics, cosmology, and theoretical physics. Technological developments have led us to the brink of their direct observation, which could become a reality in the coming years. The direct observation of GWs will open an entirely new field: GW astronomy. This is expected to bring a revolution in our knowledge of the universe by allowing the observation of previously unseen phenomena, such as the coalescence of compact objects (neutron stars and black holes), the fall of stars into supermassive black holes, stellar core collapses, big-bang relics, and the new and unexpected. With a wide range of contributions by leading scientists in the field, Gravitational Waves covers topics such as the basics of GWs, various advanced topics, GW detectors, astrophysics of GW sources, numerical applications, and several recent theoretical developments. The material is written at a level suitable for postgraduate students entering the field.

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