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Books in Physics

Physics titles offer comprehensive research and advancements across the fundamental and applied areas of physical science. From quantum mechanics and particle physics to astrophysics and materials science, these titles drive innovation and deepen understanding of the principles governing the universe. Essential for researchers, educators, and students, this collection supports scientific progress and practical applications across a diverse range of physics disciplines.

BooksJournals

  • Advances in Nuclear Science and Technology

    Volume 1
    • 1st Edition
    • Ernest J. Henley + 1 more
    • English
    Advances in Nuclear Science and Technology, Volume 1 provides an authoritative, complete, coherent, and critical review of the nuclear industry. This book covers a variety of topics, including nuclear power stations, graft polymerization, diffusion in uranium alloys, and conventional power plants. Organized into seven chapters, this volume begins with an overview of the three stages of the operation of a power plant, either nuclear or conventionally fueled. This text then examines the major problems that face the successful development of commercial nuclear power plants. Other chapters consider the synthesis of graft copolymers by radiation-induced graft polymerization. This book discusses as well the processes of technical importance in the nuclear field, such as the bonding of fuel materials to cladding, or the release of fission gases from fuel elements. The final chapter deals with the effects of nuclear radiation in causing chemical changes in matter. This book is a valuable resource for scientists and engineers.

  • Physics for Students of Science and Engineering

    Transparencies to Accompany
    • 1st Edition
    • A. L. Stanford + 1 more
    • English
    Transparencies to Accompany Physics for Students of Science and Engineering is a collection of 151 transparencies, illustrations, figures, and a table of moments of inertia of some common shapes that students in physics, science or engineering will find useful in advancing their course. One type of figure concerns vectors, particularly a graphical addition of three vectors, a graphical representation of vector subtraction, and of a particle in uniform circular motion. The illustrations show the construction of a force diagram with the subject block in the force diagram represented as a particle at the origin of a rectangular coordinate system. Other illustrations include the construction of force diagrams for a two-body system and for a block moving down an inclined plane. The illustrations depict an object on a horizontal surface resting, resting with a small horizontal force applied, resting with a great horizontal force applied without moving the object, and moving at a constant velocity with a horizontal force applied. Another figure shows a section of a thin soap film with air on either side of the film, with the light reaching each surface of the film partly reflected and partly transmitted. Each surface in the diagram indicates the phase changes that occur upon reflection. Some examples of moments of inertia include those of a hoop, disk, uniform solid sphere, and a uniform long, thin rod. The book is an aid to students and to professors of physics, calculus, and related courses in science or engineering.

  • Theory of Dispersed Multiphase Flow

    Proceedings of an Advanced Seminar Conducted by the Mathematics Research Center The University of Wisconsin-Madison May 26-28, 1982
    • 1st Edition
    • Richard E. Meyer
    • English
    Mathematics Research Center Symposium: Theory of Dispersed Multiphase Flow covers the proceedings of an advanced seminar conducted by the Mathematics Research Center of the University of Wisconsin-Madison on May 26-28, 1982. The book focuses on solutions of long chain polymers in liquids, magnetic control of particle suspensions in fluid streams, aerosols, dense granular flows, and ice crystals or vapor bubbles dispersed in river waters. The selection first elaborates on the effects of interactions between particles on the rheology of dispersions; rheology of concentrated macromolecular solutions; and a survey of results in the mathematical theory of fluidization. Discussions focus on Rayleigh-Taylor instabilities, linear instability theory, steady solutions, general theory for polymer solutions and suspensions, electrostatically concentrated suspensions, and pair interaction theories. The text then examines instability in settling of suspensions due to Brownian effects; enhanced sedimentation in vessels having inclined walls; and simple kinetic theory of Brownian diffusion in vapors and aerosols. The text takes a look at the simulation of aerosol dynamics, continuum modeling of two-phase flows, multiphase mixture theory for fluid-particle flows, and mixture theory for turbulent diffusion of heavy particles. Topics include plane gravity flow, decomposition and averaging, isothermal flows of dilute suspensions, kinematics and the equations of motion, diffusional regularization, kinematic waves, and aerosol formation and growth in uniform systems. The selection is a valuable source of data for researchers interested in the theory of dispersed multiphase flow.

  • Advances in Nuclear Science and Technology

    Volume 9
    • 1st Edition
    • Ernest J. Henley + 1 more
    • English
    Advances in Nuclear Science and Technology, Volume 9 provides information pertinent to the fundamental aspects of nuclear science and technology. This book discusses the safe and beneficial development of land-based nuclear power plants. Organized into five chapters, this volume begins with an overview of the possible consequences of a large-scale release of radioactivity from a nuclear reactor in the event of a serious accident. This text then discusses the extension of conventional perturbation techniques to multidimensional systems and to high-order approximations of the Boltzmann equation. Other chapters consider details of probability treatment of the conventionally assumed loss-of-pressure accident to a modern gas-cooled reactor. This book discusses as well details of reliability analysis of a typical electromechanical protective system. The final chapter deals with the computer applications and the need for standardization as both computing and nuclear energy shifted from research and development to industry status. This book is a valuable resource for reactor physicists, engineers, scientists, and research workers.

  • Elementary Mechanics of Solids

    The Commonwealth and International Library: Structure and Solid Body Mechanics
    • 1st Edition
    • P. P. Benham
    • B. G. Neal
    • English
    Elementary Mechanics of Solids presents the three fundamental principles, namely, equilibrium of forces, stress-strain relationship, and geometry and compatibility of deformations. This book discusses the concept of simplifying assumptions about behavior to obtain the simpler engineering solutions. Organized into seven chapters, this book begins with an overview of the theory of elasticity. This text then presents a detailed discussion of biaxial stress and strain systems as well as the generalized stress-strain relationships. Other chapters consider the determination of deflections of straight and curved beams due to shearing and bending action. This book discusses as well the elastic torsion of various thin-walled closed and open sections as well as the shaft of solid circular cross section. The final chapter discusses some cases in which the combined effects of torsion and bending occur. This book is a valuable resource for students who wish to obtain a university degree in engineering, diploma of technology, or higher national certificate.

  • Linear Elastic Theory of Thin Shells

    The Commonwealth and International Library: Structures and Solid Body Mechanics Division
    • 1st Edition
    • J. E. Gibson
    • B. G. Neal
    • English
    Linear Elastic Theory of Thin Shells presents membrane and bending theories for open and closed cylindrical shells and shells of arbitrary shape. This book aims to develop the analysis through membrane theory to bending theory for shells and to limit the type of mathematics used. Organized into eight chapters, this book begins with an overview of the solid material enclosed between two closely spaced doubly curved surfaces. This text then examines the five stress resultants for closed cylindrical shell. Other chapters consider the theoretical stresses that are closely related to the actual stresses determined experimentally in practice. This book discusses as well the numerical analysis of more complicated shell structures. The final chapter deals with the correlation between experimental and theoretical stresses in shells. This book is intended to be suitable for final year engineering and post-graduate students. Design and consulting engineers will also find this book extremely useful.

  • Basic Principles of Electronics

    Volume 2: Semiconductors
    • 1st Edition
    • J. Jenkins + 1 more
    • W. Ashhurst
    • English
    Basic Principles of Electronics, Volume 2: Semiconductors focuses on the properties, applications, and characteristics of semiconductors. The publication first elaborates on conduction in the solid state, conduction and heat, and semiconductors. Discussions focus on extrinsic or impurity semiconductors, electrons and holes, effect of temperature on the conductivity, mean free path, Joule heating effect, "vacancies" in crystals, and Drude's theory of metallic conduction. The text then ponders on semiconductor technology and simple devices, transistor, and transistor production and characteristics. Topics include strain gauges, thermistors, thermoelectric semiconductors, crystal preparation, photoconductors, and the Hall effect. The book elaborates on special devices, processes, and uses, common transistor circuitry, and a low-frequency equivalent circuit for common base, including radiation detection, optoelectronics, field effect transistors, sonar amplifier, oscillators, and multi-stage amplifiers. The publication is highly recommended for technical college students and researchers wanting to study semiconductors.

  • Advances in Nuclear Science and Technology

    Volume 8
    • 1st Edition
    • Ernest J. Henley + 1 more
    • English
    Advances in Nuclear Science and Technology, Volume 8 discusses the development of nuclear power in several countries throughout the world. This book discusses the world's largest program of land-based electricity production in the United States. Organized into six chapters, this volume begins with an overview of the phenomenon of quasi-exponential behavior by examining two mathematical models of the neutron field. This text then discusses the finite element method, which is a method for obtaining approximate solutions to integral or differential equations. Other chapters consider the status of the accuracy of nuclear data used for reactor calculations and the target accuracies required by reactor physics. This book discusses as well the role of integral experiments for the improvement of nuclear data and the different approaches taken to enhance them. The final chapter deals with the manufacture and application of coated particles. This book is a valuable resource for reactor physicists, engineers, scientists, and research workers.

  • Advances in Nuclear Science and Technology

    Volume 5
    • 1st Edition
    • Ernest J. Henley + 1 more
    • English
    Advances in Nuclear Science and Technology, Volume 5 presents the underlying principles and theory, as well as the practical applications of the advances in the nuclear field. This book reviews the specialized applications to such fields as space propulsion. Organized into six chapters, this volume begins with an overview of the design and objective of the Fast Flux Test Facility to provide fast flux irradiation testing facilities. This text then examines the problem in the design of nuclear reactors, which is the analysis of the spatial and temporal behavior of the neutron and temperature distributions within the system. Other chapters consider the three major ways of estimating shield effectiveness. This book discusses as well the purpose of variational principle, which is a characterization of a function as the stationary point of an appropriate functional. The final chapter deals with the solution of the Boltzmann transport equation. This book is a valuable resource for engineers.

  • Advances in Nuclear Science and Technology

    Volume 6
    • 1st Edition
    • Ernest J. Henley + 1 more
    • English
    Advances in Nuclear Science and Technology, Volume 6 provides information pertinent to the fundamental aspects of nuclear science and technology. This book covers a variety of topics, including nuclear steam generator, oscillations, fast reactor fuel, gas centrifuge, thermal transport system, and fuel cycle. Organized into six chapters, this volume begins with an overview of the high standards of technical safety for Europe's first nuclear-propelled merchant ship. This text then examines the state of knowledge concerning qualitative results on the behavior of the solutions of the nonlinear point kinetics equations with linear feedback. Other chapters consider the mathematical methods used in the calculations and outline the main features peculiar to fast systems. This book discusses as well the thermal transport in reactors. The final chapter deals with the status of nuclear energy in Western Europe, which depends on the development and introduction of reactor types that make a better use of the nuclear resources. This book is a valuable resource for reactor physicists.

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