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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

    • Progress in Reaction Kinetics

      Volume 3
      • 1st Edition
      • G. Porter
      • English
      Progress in Reaction Kinetics, Volume 3 presents articles about advances in reaction kinetics. The book begins with a theoretical review of bimolecular reactions, such as the relation between free energy and potential energy surfaces. The text describes reactions of hydrogen atoms in the gas phase; the hot atom chemistry of gas-phase systems; the inhibition of gaseous free radical chain reactions; and vibrational relaxation in gases. Articles about pulse radiolysis; the effects of dose-rate and linear energy transfer in radiation chemistry; and the electronic spectra and kinetics of aromatic free radicals are also considered. The book further tackles the kinetics of polymerization of vinyl monomers by lithium alkyls as well as radical polymerization in solutions. Chemists and professionals dealing with radiation, physical, and industrial chemistry will find the book invaluable.

    • Gaseous Dielectrics

      Proceedings of the Fifth International Symposium on Gaseous Dielectrics, Knoxville, Tennessee, U.S.A., May 3—7, 1987
      • 1st Edition
      • Loucas G. Christophorou + 1 more
      • English
      Gaseous Dielectrics V presents the proceedings of the Fifth International Symposium on Gaseous Dielectrics, held in Knoxville, Tennessee on May 3–7, 1987. This book discusses the effective coupling between basic and applied research and technology achieved in this area. Organized into 12 chapters, this book begins with an overview of the status of theoretical calculations of excitation and ionization coefficients for electrons. This text then provides an extensive investigation into different phases of discharge development in electronegative gases. Other chapters consider the use of sulfur hexafluoride as a dielectric medium in rail systems and gas circuit breakers. This book reviews as well the primary requirements for a successful gas analysis program, with emphasis on measurement and interpretation methods. The final chapter deals with the progress in dielectric quality assurance of gas insulated substations (GIS), which has resulted from improved scientific knowledge of significant phenomena. This book is a valuable resource for electrical and electronics engineers.

    • Essentials of Math Methods for Physicists

      • 1st Edition
      • Hans J. Weber + 1 more
      • English
      Essentials of Math Methods for Physicists aims to guide the student in learning the mathematical language used by physicists by leading them through worked examples and then practicing problems. The pedagogy is that of introducing concepts, designing and refining methods and practice them repeatedly in physics examples and problems. Geometric and algebraic approaches and methods are included and are more or less emphasized in a variety of settings to accommodate different learning styles of students. Comprised of 19 chapters, this book begins with an introduction to the basic concepts of vector algebra and vector analysis and their application to classical mechanics and electrodynamics. The next chapter deals with the extension of vector algebra and analysis to curved orthogonal coordinates, again with applications from classical mechanics and electrodynamics. These chapters lay the foundations for differential equations, variational calculus, and nonlinear analysisin later discussions. High school algebra of one or two linear equations is also extended to determinants and matrix solutions of general systems of linear equations, eigenvalues and eigenvectors, and linear transformations in real and complex vector spaces. The book also considers probability and statistics as well as special functions and Fourier series. Historical remarks are included that describe some physicists and mathematicians who introduced the ideas and methods that were perfected by later generations to the tools routinely used today. This monograph is intended to help undergraduate students prepare for the level of mathematics expected in more advanced undergraduate physics and engineering courses.

    • Computer Assisted Learning in Physics Education

      • 1st Edition
      • Alfred Bork
      • English
      Computer Assisted Learning in Physics Education focuses on the use of computers in learning physics. Organized into six chapters, the book begins with an explanation of the CONDUIT series in physics. Subsequent chapters focus on physics education with or without computers; a computer-based course in classical mechanics; physics in the Irvine Educational Technology Center; and an electronics course using an intelligent video format. The last chapter addresses computation as a physical and intellectual environment for learning physics. The book will be useful for physics students as an aid in the use of computers in this field.

    • Nuclear Physics

      International Series of Monographs in Natural Philosophy
      • 1st Edition
      • M. G. Bowler
      • D. Ter Haar
      • English
      Nuclear Physics is concerned primarily with low-energy nuclear physics rather than high-energy or elementary particle physics, although examples from particle physics are used where appropriate. The Fermi Golden Rule is given emphasis throughout. This text consists of six chapters and begins with an introduction to nuclear physics, followed by a discussion on nuclear structure at a fairly basic level. This book also discusses the nuclear periodic table, radioactivity, and unstable nuclear states as well as nuclear mass and nuclear binding energy. Spin and static electric and magnetic moments are then examined from the perspective of quantum mechanics rather than through the vector model of angular momentum. Quantum mechanics is also used to treat nuclear decay in the next chapter. The theory of nuclear reactions is discussed by highlighting the concepts of cross-section and resonance. The penultimate chapter deals with self-sustaining nuclear reactions, with particular reference to the nuclear physics of fission reactors and the nuclear aspects of stellar physics. This chapter ends with the application of the theory of thermonuclear reactions to the design of a thermonuclear power plant. The final chapter is devoted to charge independence and isospin in low-energy nuclear physics.

    • Mechanics

      Lectures on Theoretical Physics
      • 1st Edition
      • Arnold Sommerfeld
      • English
      Mechanics: Lectures on Theoretical Physics, Volume I covers a general course on theoretical physics. The book discusses the mechanics of a particle; the mechanics of systems; the principle of virtual work; and d’alembert’s principle. The text also describes oscillation problems; the kinematics, statics, and dynamics of a rigid body; the theory of relative motion; and the integral variational principles of mechanics. Lagrange’s equations for generalized coordinates and the theory of Hamilton are also considered. Physicists, mathematicians, and students taking Physics courses will find the book invaluable.

    • Festkörper Probleme VIII

      Advances in Solid State Physics
      • 1st Edition
      • O. Madelung
      • English
      Festkörper Probleme VIII reviews the status of radiation damage in semiconducting materials and components. This book examines the problems connected to the mechanism of production of defects by bombardment with energetic particles, particularly the displacement energy. Comprised of nine chapters, this book begins with an overview of the microstructure of radiation defects in silicon, which is known from optical absorption experiments and electron spin resonance. This text then explains the preparation of single crystals of high purity or defined impurity contents, which is the basis of successful solid state research. Other chapters consider the widespread application of vapor phase reactions. This book discusses as well mechanism of latent image formation, which considers some advances in silver halide research. The final chapter explains the useful information that can be obtained by a study of the field effects. This book is a valuable resource for solid state physicists as well as applied physicists.

    • The Physics of Selenium and Tellurium

      Proceedings of the International Symposium Held at Montreal, Canada October 12–13, 1967
      • 1st Edition
      • W. Charles Cooper
      • English
      The Physics of Selenium and Tellurium contains the proceedings of the International Symposium on the Physics of Selenium and Tellurium held in Montreal, Canada, on October 12-13, 1967 and sponsored by the Selenium-Tellurium Development Association, Inc. The papers explore the physics of selenium and tellurium, with emphasis on band structure, crystal growth and characterization, optical properties, and electrical properties. This book consists of 33 chapters and opens with a review of progress in the physics of selenium and tellurium, particularly with respect to the mechanical and thermal properties of trigonal selenium and tellurium and their lattice dynamics. The following chapters focus on calculations of the band structure of selenium and tellurium; magnetoabsorption in tellurium; trapping levels in hexagonal selenium; and coordination and thermal motion in crystalline selenium and tellurium. Infrared-active lattice vibrations in amorphous selenium and the contribution of lattice vibrations to the optical constants of tellurium are also discussed. This monograph will be a useful resource for physicists.

    • Case Studies in Atomic Collision Physics

      • 1st Edition
      • E. W. McDaniel + 1 more
      • English
      Case Studies in Atomic Collision Physics II focuses on studies on the role of atomic collision processes in astrophysical plasmas, including ionic recombination, electron transport, and position scattering. The book first discusses three-body recombination of positive and negative ions, as well as introduction to ionic recombination, calculation of the recombination coefficient, ions recombining in their parent gas, and three-body recombination at moderate and high gas-densities. The manuscript also takes a look at precision measurements of electron transport coefficients and differential cross sections in electron impact ionization. The publication examines the interpretation of spectral intensities from laboratory and astrophysical plasmas, atomic processes in astrophysical plasmas, and polarized orbital approximations. Discussions focus on collision rate experiments, line spectrum, collisional excitation and ionization, polarized target wave function, and application to positron scattering and annihilation. The text also ponders on cross sections and electron affinities and the role of metastable particles in collision processes. The selection is a valuable source of data for physicists and readers interested in atomic collision.

Related subjects

Condensed matter physics

Instrumentation

Interdisciplinary physics

Nonlinear statistical and applied physics

Nuclear and high energy physics

Optics with atomic molecular and plasma physics

Physics general

Surfaces and interfaces