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Elsevier

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.

  • Clinical Optics

    • 1st Edition
    • Troy E. Fannin + 1 more
    • English
    Clinical Optics is intended primarily for use by optometry students, though it could also prove useful for the training of optometric technicians and dispensing opticians. This book is organized into thirteen chapters. These chapters cover most aspects of ophthalmic optics or clinical optics including the design and dispensing of eyewear, the types for lenses suitable for correcting high refractive errors, the optical principles governing low vision lenses and the importance of absorptive lenses and lens coatings for eye protection against radiation. This book will be of interest to optometry students and to those involved in the training of optometric technicians and dispensing opticians.

  • Advances in Astronomy and Astrophysics

    • 1st Edition
    • Volume 5
    • ZdenÄ›k Kopal
    • English
    Advances in Astronomy and Astrophysics, Volume 5 is a collection of papers that deals with the Zodiacal light, three dimensional periodic oscillations, the secular variation of mass, and the evolution of binary systems. Some papers discuss the periodicity of the sunspot groups, as well as compact and dispersed cosmic matter. One paper notes that the brightness of the zodiacal light continues to increase right up to the limb of the Sun, where it merges with parts of the solar corona. Another paper discusses analytically and numerically the three families of three-dimensional motions where the members of each family pass very close to one of three equilibrium points. One paper describes the loss of mass in the Sun as being (1) caused by electromagnetic or corpuscular radiation that occurs at a slow rate, or (2) by an explosion of a nova or supernova. One paper examines the periodicity of solar activities, the physical conditions of sunspots, chromospheric flares, prominence, and magnetic fields. The paper notes that different periodicity laws govern the formation frequency and importance of spot groups. The behavior of spot groups also depends on the periodicity process of solar activity. The collection can prove valuable for astro-physicists, astronomers, geochemists, and mathematicians whose works involve cosmology and astronomy.

  • Physics of Polymer Surfaces and Interfaces

    • 1st Edition
    • Isaac C. Sanchez
    • English
    Physics of Polymer Surfaces and Interfaces emphasizes current theoretical ideas and modern experimental tools for characterizing the physical properties of polymer surfaces and interfaces. Foremost are their important roles in polymer technologythroughthe processes of wetting, adhesion, adsorption, and through their effect on the kinetics of phase separation and mechanical mixing of molten polymers. Each of the 14 chapters in this book stands as a 'mini-review' of a specific subject. Thisup-to-date compendium of the most significant theoretical and experimental works provides a scientific understanding of the physics of polymer interfaces and surfaces and will aid scientists in planning and interpreting new results.

  • Surface Science Techniques

    • 1st Edition
    • J.M. Walls + 1 more
    • English
    This volume provides a comprehensive and up to the minute review of the techniques used to determine the nature and composition of surfaces. Originally published as a special issue of the Pergamon journal Vacuum, it comprises a carefully edited collection of chapters written by specialists in each of the techniques and includes coverage of the electron and ion spectroscopies, as well as the atom-imaging methods such as the atom probe field ion microscope and the scanning tunnelling microscope. Surface science is an important area of study since the outermost surface layers play a crucial role in processses such as catalysis, adhesion, wear, and corrosion, with applications in metallurgy, thin films and surface coatings, the chemicals and polymer industries, and microelectronics, to name a few. This book covers those techniques used routinely for surface analysis as well as those employed for more fundamental scientific studies. It will be of interest to university research workers, graduate students and to industrial scientists solving practical problems.

  • Contact Lens Design Tables

    Tables for the Determination of Surface Radii of Curvature of Hard Contact Lenses to Give a Required Axial Edge Lift
    • 1st Edition
    • Anthony Musset + 1 more
    • English
    Contact Lens Design Tables presents tables for the determination of surface radii of curvature of hard contact lenses to give a required axial edge lift. The book also offers method of use of these tables to achieve the best approach to their use in lens design. These tables will be helpful to contact lens practitioners and manufacturers.

  • Observations of the Night Airglow

    1 July 1957—31 December 1959
    • 1st Edition
    • I. G. Yao
    • English
    Annals of the International Geophysical Year, Volume 25: Observations of the Night Airglow covers the results from systematic observations of the night airglow during the two and a half year period of the International Geophysical Year and International Geophysical Cooperation (July 1957 through December 1959). Airglow refers to light other than the polar aurora, emitted by the upper atmosphere. This volume is composed of eight chapters that contain a series of tables of hourly values of the absolute zenith intensity of the airglow, arranged according to station and wavelength. The numerical results from the several observers were put on punched cards to facilitate machine printing and statistical studies. The local times are given at the top of each page, and the universal times at the bottom. The year, month and day of the observations are shown in the first three columns. The convention was adopted of using the date corresponding to the evening, thus, the entire night of 1/2 July 1957 is entered as 1 July 1957 with the understanding that the date changed to 2 July at local midnight. The rest of the book considers the instruments, procedures, and statistic study of the night airglow. This book is of great value to geophysicists.

  • The Classical Dynamics of Particles

    Galilean and Lorentz Relativity
    • 1st Edition
    • Ronald A. Mann
    • English
    The Classical Dynamics of Particles: Galilean and Lorentz Relativity has been designed to serve either as an independent graduate course in dynamics or as a segment of a graduate theoretical physics course. The book begins with a general introduction and a rather extensive discussion of the special theory of relativity, including a section on tachyons. Separate chapters follow on the variational derivation of Lagrangian dynamical equations of charged particle motion and spin angular momentum; variational derivation of Noether's theorem; and canonical formalism and Dirac's extension of Hamiltonian dynamics and treatment of constraints. The ""No-Interaction Theorem"" of Wigner and Van Dam and various efforts to construct a many-particle dynamics compatible with the special theory of relativity are also discussed. The final chapter presents two applications of group theory in classical mechanics: the factorization of the dynamical matrix and the construction of a canonical formalism from a symmetry group. This text is intended for advanced undergraduate or graduate students of physics. It is assumed that the reader has had an undergraduate course in mechanics and the usual undergraduate mathematics preparation including differential equations and matrix theory. Some exposure to elementary tensors and group theory would be helpful but is not essential

  • Dealing with Data

    The Commonwealth and International Library: Physics Division
    • 1st Edition
    • Arthur J. Lyon
    • W. Ashhurst
    • English
    Dealing with Data is an introductory course to problems and techniques dealing with data analysis, with emphasis on the physical and engineering sciences. The book starts with the basics of data analysis through non-statistical and non-mathematical assessments of error and uncertainty conditions. Experimental and maximum errors and the use of simple graphical methods are briefly described. Applying quick methods on data analysis such as frequency distributions, determination of standard errors, and applications of significance tests are explained. Special attention is given to the statistical quick methods where the range is preferred to traditional methods of calculation. The author notes that the quick methods have more practical applications in physics and engineering. The use of the quick methods of calculation is more precise in error estimation, confidence limits, and tests for outliers that the error is very negligible when applied to actual conditions. Dealing with errors of computation arising from rounding of values, and those arising from the use of slide rules and of the logarithm tables, is explained. The use of numerical methods (integration, differentiation, and interpolation) and graphical methods (like curve fitting) is briefly explained, with the author's emphasis on choosing the simpler methods. Sixth formers, engineering undergraduates, statisticians, and students of mathematics will find the information in this book useful.

  • Advances in Biological and Medical Physics

    Volume 3
    • 1st Edition
    • John H. Lawrence + 1 more
    • English
    Advances in Biological and Medical Physics, Volume III is a collection of papers dealing with the applications of radioactive isotopes, particularly, with the dosimetry of artificial radioactive isotopes, and the kinetics of the turnover of radioactive substances. One paper explains dosimetry in medicine as regards (1) units and absolute dosage rates, and (2) the distribution of radiation in a scattering medium such as the human body. The investigator can use tracers to make individual observations of the behavior of specific molecules in steady state systems. This feature of tracer applications leads to analysis of biological reaction kinetics. Some papers discuss the mechanisms involved in the antigen-antibody reactions, molecular analysis using fast charged particles, x-ray microscopy, ultraviolet microscopy, microspectroscopy, as well as the biological effects of ultrasonic waves. Ultrasonic waves can affect biological material through heat action, mechanical action, or chemical action. One paper suggests that cell disintegration is due to the mechanical effect provoked by cavitation and that cells are probably broken down by the sharp-fronted shock wave resulting from the collapse of cavitation bubbles. The collection can prove beneficial for biochemists, micro-biologists, bio-physicists, cellular researchers, and academicians involved in the study of cellular biology.

  • Fusion Technology 1980

    Proceedings of the Eleventh Symposium, the Examination Schools, Oxford, UK, 15—19 September 1980
    • 1st Edition
    • Sam Stuart
    • English
    Fusion Technology 1980, Volume 2 contains the proceedings of the 11th Symposium on Fusion Technology held at the Examination Schools, Oxford, UK on September 15-19, 1980. As a continuation of the papers presented in the symposium, the book begins with a description of the data acquisition and control in fusion technology. Subsequent papers presented focus on power supplies, plasma engineering, and fusion materials. Various reactor studies reported in the symposium are also shown.

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