Classical Electromagnetic Radiation, Second Edition focuses on the classical electrodynamics with emphasis on radiation problems and the wave attributes of the electromagnetic field. This book aims to provide a modern and practically sophisticated mathematical treatment of classical electrodynamics at the undergraduate level. Organized into 13 chapters, this edition starts with an overview of the basic principles of electromagnetism. This text then presents a detailed discussion of Laplace's equation and a treatment of multiple effects, since such material is of considerable significance in the development of radiation theory. Other chapters consider the electromagnetic field equations, which are developed in the time-dependent form. This book discusses as well the subjects of wave propagation in space as well as in material media. The final chapter presents an introduction to relativistic electrodynamics. This book is a valuable resource for physicists, engineers, and readers who are interested in the applications of electrodynamics in modern physics.
This newly corrected, highly acclaimed text offers intermediate-level juniors and first-year graduate students of physics a rigorous treatment of classical electromagnetics. The authors present a very accessible macroscopic view of classical electromagnetics that emphasizes integrating electromagnetic theory with physical optics. The survey follows the historical development of physics, culminating in the use of four-vector relativity to fully integrate electricity with magnetism. Starting with a brief review of static electricity and magnetism, the treatment advances to examinations of multipole fields, the equations of Laplace and Poisson, dynamic electromagnetism, electromagnetic waves, reflection and refraction, and waveguides. Subsequent chapters explore retarded potentials and fields and radiation by charged particles; antennas; classical electron theory; interference and coherence; scalar diffraction theory and the Fraunhofer limit; Fresnel diffraction and the transition to geometrical optics; and relativistic electrodynamics. A basic knowledge of vector calculus and Fourier analysis is assumed, and several helpful appendices supplement the text. An extensive Solutions Manual is also available.
About This Book Here W.H. Inmon defines the systems development guidelines and principles that ought to govern the client/server environment—what they are, how they are implemented, and what happens if they are ignored—and develops an architecture that applies across all client/server environments. Inmon provides practical solutions to help build sound and stable client/server applications. He covers performance issues, control of update, ownership vs. stewardship of data, differences between operational and decision support processing, application-by-application development vs. integration, metadata, requirements-driven vs. data-driven development, decision support processing, and more. In this revised edition, Inmon introduces important concepts such as the "pure" server environment, data warehouse, and organizational dynamics, plus a micro/macro vision of the system. About Wiley-QED Since 1971 computer professionals worldwide have looked to Wiley-QED for current, practical, and in-depth information. Our publishing program specializes in helping people solve their computer-related problems. The books you buy from Wiley-QED are written by professionals for professionals. We offer the world’s most complete library of books for people working with computers, from mainframes to workstations and PC’s. When you buy a Wiley-QED book, you hire your own personal consultant. Another Book in the Wiley-QED Professional Series From Mainframe to Workstations: Offloading Application Development by Mark A Butterline. Here is a blueprint for anyone who must determine the appropriateness of offloaded development for his or her organization, and subsequently justify, design, assemble, and operate an off-loaded environment.
Newly corrected, this highly acclaimed text is suitable foradvanced physics courses. The authors present a very accessiblemacroscopic view of classical electromagnetics thatemphasizes integrating electromagnetic theory with physicaloptics. The survey follows the historical development ofphysics, culminating in the use of four-vector relativity tofully integrate electricity with magnetism.Corrected and emended reprint of the Brooks/Cole ThomsonLearning, 1994, third edition.
Physics in the Modern World, Second Edition focuses on the applications of physics in a world dominated by technology and the many ways that physical ideas are manifest in everyday situations, from the operation of rockets and cameras to space travel and X-ray photography. It shows how physical principles bring a pattern of simplicity and continuity to the diverse natural and technological world around us. Automobile air bags, artificial gravity, and pollution control, as well as appliance economics, radar, and other modern phenomena and devices are discussed to emphasize the way that physical principles are applied in today's world. Comprised of 21 chapters, this book begins with an introduction to physical ideas, with particular reference to the basic concepts used in describing and measuring things such as length, time, and mass. The discussion then turns to motion, force, and linear momentum, along with circular motion, torque, and angular momentum. Subsequent chapters focus on gravitation and space travel; energy and electricity; liquids and gases; electromagnetism; heat; waves; electromagnetic radiation; light; atoms; relativity; structure of matter; nuclei and nuclear power; and radiation. Each chapter concludes with a list of exercises that include questions and problems. This monograph is intended for physics students who are specializing in other disciplines.
Physical Science in the Modern World surveys the whole range of the non-biological sciences. This book explores the significant ideas and concepts in chemistry, physics, astronomy, geology, and meteorology with emphasis on how these sciences bear strongly upon one another and how the basic principles are applied to each. Organized into three part encompassing 29 chapters, this book starts with an overview of the fundamental building blocks of matter and explains how they are assembled to form molecules, rocks, minerals, and the Earth. This text then examines the basic concepts of physical science by exploring the fundamental principles that govern all physical processes and we see how they relate to various everyday occurrences. Other chapters consider how modern chemistry affects the world we live in and explain how the development of semiconductor materials has led in the development of miniature electronics. This book is a valuable resource for physicists, chemists, astronomers, geologists, and meteorologists.
Study Guide for Physics in the Modern World 2E provides information pertinent to the fundamental concepts in physics. This book presents a list of concepts, definitions, and equations with various supplementary exercises for the readers. Comprised of 21 chapters, this book starts with an overview of the standard units of measure for length, time, mass, energy, force, pressure, and density. This text then provides the meaning of various terms in physics, including atom, molecule, element, and compound. Other chapters explore the composition and behavior of all ordinary matter in which it depends on the four basic units, including electrons, protons, neutrons, and photons. This book discusses as well the method used for converting the units of physical quantities from one system of measurement to another. The final chapter deals with the various applications of radiation in biological investigations as well as in medical diagnostics and therapeutics. This book is intended for students enrolled in introductory physics courses.
Classical Dynamics of Particles and Systems presents a modern and reasonably complete account of the classical mechanics of particles, systems of particles, and rigid bodies for physics students at the advanced undergraduate level. The book aims to present a modern treatment of classical mechanical systems in such a way that the transition to the quantum theory of physics can be made with the least possible difficulty; to acquaint the student with new mathematical techniques and provide sufficient practice in solving problems; and to impart to the student some degree of sophistication in handling both the formalism of the theory and the operational technique of problem solving. Vector methods are developed in the first two chapters and are used throughout the book. Other chapters cover the fundamentals of Newtonian mechanics, the special theory of relativity, gravitational attraction and potentials, oscillatory motion, Lagrangian and Hamiltonian dynamics, central-force motion, two-particle collisions, and the wave equation.
The Civil War in New Mexico began in 1861 with the Confederate invasion and occupation of the Mesilla Valley. At the same time, small villages and towns in New Mexico Territory faced raids from Navajos and Apaches. In response the commander of the Department of New Mexico Colonel Edward Canby and Governor Henry Connelly recruited what became the First and Second New Mexico Volunteer Infantry. In this book leading Civil War historian Jerry Thompson tells their story for the first time, along with the history of a third regiment of Mounted Infantry and several companies in a fourth regiment. Thompson’s focus is on the Confederate invasion of 1861–1862 and its effects, especially the bloody Battle of Valverde. The emphasis is on how the volunteer companies were raised; who led them; how they were organized, armed, and equipped; what they endured off the battlefield; how they adapted to military life; and their interactions with New Mexico citizens and various hostile Indian groups, including raiding by deserters and outlaws. Thompson draws on service records and numerous other archival sources that few earlier scholars have seen. His thorough accounting will be a gold mine for historians and genealogists, especially the appendix, which lists the names of all volunteers and militia men.
This work is a revision of the clearly-written, comprehensive introduction to general physics for both majors and non-majors. Classical physics is emphasized, but up-to-date modern findings are included, such as black holes, pulsars, neutron stars, quarks and gluons, and recent progress in the unified field theory. The mathematics necessary is kept to an algebra-trig level, and the bioscience left to separate essays for greater flexibility. 1200 graded questions are posed.
This newly corrected, highly acclaimed text offers intermediate-level juniors and first-year graduate students of physics a rigorous treatment of classical electromagnetics. The authors present a very accessible macroscopic view of classical electromagnetics that emphasizes integrating electromagnetic theory with physical optics. The survey follows the historical development of physics, culminating in the use of four-vector relativity to fully integrate electricity with magnetism. Starting with a brief review of static electricity and magnetism, the treatment advances to examinations of multipole fields, the equations of Laplace and Poisson, dynamic electromagnetism, electromagnetic waves, reflection and refraction, and waveguides. Subsequent chapters explore retarded potentials and fields and radiation by charged particles; antennas; classical electron theory; interference and coherence; scalar diffraction theory and the Fraunhofer limit; Fresnel diffraction and the transition to geometrical optics; and relativistic electrodynamics. A basic knowledge of vector calculus and Fourier analysis is assumed, and several helpful appendices supplement the text. An extensive Solutions Manual is also available.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.