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As recently as two hundred years ago, physics as we know it today did not exist. Born in the early nineteenth century during the second scientific revolution, physics struggled at first to achieve legitimacy in the scientific community and culture at large. In fact, the term "physicist" did not appear in English until the 1830s. When Physics Became King traces the emergence of this revolutionary science, demonstrating how a discipline that barely existed in 1800 came to be regarded a century later as the ultimate key to unlocking nature's secrets. A cultural history designed to provide a big-picture view, the book ably ties advances in the field to the efforts of physicists who worked to win social acceptance for their research. Beginning his tale with the rise of physics from natural philosophy, Iwan Morus chronicles the emergence of mathematical physics in France and its later export to England and Germany. He then elucidates the links between physics and industrialism, the technology of statistical mechanics, and the establishment of astronomical laboratories and precision measurement tools. His tale ends on the eve of the First World War, when physics had firmly established itself in both science and society. Scholars of both history and physics will enjoy this fascinating and studied look at the emergence of a major scientific discipline.
Winner of the Wolf Prize for his contribution to our understanding of the universe, Penrose takes on the question of whether artificial intelligence will ever approach the intricacy of the human mind. 144 illustrations.
Physics of Energy Sourcesprovides readers with a balanced presentation of the fundamental physics needed to understand and analyze conventional and renewable energy sources including nuclear, solar, wind and water power. It also presents various ways in which energy can be stored for future use. The book is an informative and authoritative text for students in the physical sciences and engineering and is based on a lecture course given regularly by the author. With the ever increasing demand for sustainable, environmentally-friendly and reliable sources of energy, the need for scientists and engineers equipped to tackle the challenges of developing and improving upon commercially viable energy sources has never been more urgent. By focusing on the physical principles governing energy production, storage, and transmission, this book provides readers with a solid foundation in the science and technology of energy sources. Physics of Energy Sources features include: Analyses of conventional and renewable energy sources in terms of underlying physical principles Integrated application of a wide range of physics, from classical to quantum physics Coverage of nuclear, wind, wave, tidal, hydroelectric, geothermal and solar power, including many practical systems Consideration of efficiency for power production as well as energy storage and transportation Consideration of key environmental issues Worked examples in text, and problems & solutions to encourage understanding Derivation of formulae with a minimum of mathematical complexity
This book contains 500 problems covering all of introductory physics, along with clear, step-by-step solutions to each problem.
A comedy melodrama concerning three mad physicists in a Swiss sanatorium.
Relativity physics.
Free energy and anti-gravity are possible today. The theory of zero point energy shows that there are great fluctuations of electrical field energy embedded within the fabric of space. Some examples: Inventor T Henry Moray produced a fifty-kilowatt free energy machine in 1930; The Pons/Fleischmann cold fusion experiment produced tremendous heat without fusion. The chapters in this remarkable book include: Artificial Gravity; Stepping Down High Frequency Energy; Noise as a Source of Energy; Macroscopic Vacuum Polarisation; Cohering the Zero-Point Energy; The Holistic Paradigm; Electrolytic Fusion - A Zero-Point Energy Coherence?; and, Scalar Currents and Scalar Waves.
This book provides a comprehensive treatment of intensity dependent particle beam instabilities in accelerating rings. Written for researchers, the material is also suitable for use as a textbook in an advanced graduate course for students studying accelerator physics. The presentation starts with a brief review of the basic concept of wake potentials and coupling impedances in the vacuum chamber followed by a discussion on static and dynamic solutions of their effects on the particle beams. Special emphasis is placed separately on proton and electron machines. Other special topics of interest covered include Landau damping, BalakinOCoNovokhatskyOCoSmirnov damping, Sacherer''s integral equations, Landau cavity, saw-tooth instability, Robinson stability criteria, beam loading, transition crossing, two-stream instabilities, and collective instability issues of isochronous rings. After the formulation of an instability, readers are provided a thorough description of one or more experimental observations together with a discussion of the cures for the instability. Although the book is theory oriented, the use of mathematics has been minimized. The presentation is intended to be rigorous and self-contained with nearly all the formulas and equations derived."