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Waves of Influence brings fresh attention to connections among regions often seen as isolated from one another. Drawing upon recent models of globalization alongside methods such as computer simulation and iconographic analysis, authors present individual case studies to demonstrate how each region participated in its own distinct network.
Researchers and graduate students interested in the Mössbauer Effect and its Application will find this volume of the Hyperfine Interactions Journal indispensable. The volume presents the most recent developments in the methodology of Mössbauer spectroscopy; it covers the progress in the understanding of the more recent fields of nanoparticles, nanowires, multilayers and superlattices, surfaces and interfaces. In addition, the traditional areas of applications in physics, chemistry, biology, medicine, earth science, mineralogy, archaeology, material science, thin films, metallurgy and industrial applications like corrosion and catalysis are well presented. The contributions include theoretical treatments using ab initio calculations, molecular simulations as well as experimental results utilizing techniques like transmission spectroscopy, CEMS and nuclear resonance scattering.
Grometstein explains modem physics with enthusiasm, wit and insight. As he presents the usual milestones in the history of modem physics, his central focus is the historical debate regarding the nature of light: is it a particle or is it a wave? This book will be read by generations of students in physical science who seek a well written discussion of these important issues. Grometstein includes material which is quite recent, thus making the present volume particularly useful.
In his introduction to a revolutionary theory of the cosmos, Martin Bojowald shows how the big bang theory may give way to the big bounce theory, which describes our universe as an eternal series of expansions and contractions, with no beginning and no end. In 2000, Bojowald, then a twenty-seven-year-old postdoctoral student at Pennsylvania State University, used a relatively new theory called loop quantum gravity—a cunning combination of Einstein’s theory of gravity with quantum mechanics—to create a simple model of the universe. Loop quantum cosmology, or LQC, was born, and with it, a theory that managed to do something even Einstein’s general theory of relativity had failed to do—illuminate the very birth of the universe.
Ship Hydrostatics and Stability is a complete guide to understanding ship hydrostatics in ship design and ship performance, taking you from first principles through basic and applied theory to contemporary mathematical techniques for hydrostatic modeling and analysis. Real life examples of the practical application of hydrostatics are used to explain the theory and calculations using MATLAB and Excel. The new edition of this established resource takes in recent developments in naval architecture, such as parametric roll, the effects of non-linear motions on stability and the influence of ship lines, along with new international stability regulations. Extensive reference to computational techniques is made throughout and downloadable MATLAB files accompany the book to support your own hydrostatic and stability calculations. The book also includes definitions and indexes in French, German, Italian and Spanish to make the material as accessible as possible for international readers. - Equips naval architects with the theory and context to understand and manage ship stability from the first stages of design through to construction and use. - Covers the prerequisite foundational theory, including ship dimensions and geometry, numerical integration and the calculation of heeling and righting moments. - Outlines a clear approach to stability modeling and analysis using computational methods, and covers the international standards and regulations that must be kept in mind throughout design work. - Includes definitions and indexes in French, German, Italian and Spanish to make the material as accessible as possible for international readers.
What is everything made of? How do things change and how do they work? What is life? In The Nature of Nature, visionary scientist Irv Dardik tackles these questions by introducing his discovery of SuperWaves, a singular wave phenomenon whose design generates what we experience as matter, space, time, motion, energy, and order and chaos. Simply put, the SuperWaves principle states that the fundamental stuff of nature is waves—waves waving within waves, to be exact. Dardik challenges the rationality of accepting a priori that the universe is made of discrete particles. Instead, by drawing from his own discovery of a unique wave behavior and combining it with scientific facts, he shows that every single thing in existence—from quantum particles to entire galaxies—is waves waving in the unique pattern he calls SuperWaves. The discovery of SuperWaves and the ideas behind it, while profound, can be intuitively grasped by every reader, whether scientist or layperson. Touching on everything from quantum physics to gravity, to emergent complexity and thermodynamics, to the origins of health and disease, it shows that our health, and the health of the environment and civilization, depend upon our understanding SuperWaves. The Nature of Nature is an absorbing account that combines Dardik’s contrarian look at the history of science with philosophical discussion, his own groundbreaking research, and hope for the future.
One of "The Most Fascinating Books WIRED Read in 2020" "One part science book, one part historical narrative, one part memoir . . . harrowing and inspiring.”—The Wall Street Journal How a determined scientist cracked the case of the first successful—and disastrous—submarine attack On the night of February 17, 1864, the tiny Confederate submarine HL Hunley made its way toward the USS Housatonic just outside Charleston harbor. Within a matter of hours, the Union ship’s stern was blown open in a spray of wood planks. The explosion sank the ship, killing many of its crew. And the submarine, the first ever to be successful in combat, disappeared without a trace. For 131 years the eight-man crew of the HL Hunley lay in their watery graves, undiscovered. When finally raised, the narrow metal vessel revealed a puzzling sight. There was no indication the blast had breached the hull, and all eight men were still seated at their stations—frozen in time after more than a century. Why did it sink? Why did the men die? Archaeologists and conservationists have been studying the boat and the remains for years, and now one woman has the answers. In the Waves is much more than just a military perspective or a technical account. It’s also the story of Rachel Lance’s single-minded obsession spanning three years, the story of the extreme highs and lows in her quest to find all the puzzle pieces of the Hunley. Balancing a gripping historical tale and original research with a personal story of professional and private obstacles, In the Waves is an enthralling look at a unique part of the Civil War and the lengths one scientist will go to uncover its secrets.
This volume contains contributions on the following aspects of wind engineering research: wind-characteristics, exposure, simulation and environment; building aerodynamics, external and internal pressures; full-scale experiments; vehicle aerodynamics and dynamic response; mathematical modelling; aeroelastic instabilities; and more.