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Electrodynamics of Materials

Author: Scipione Bobbio

Publisher: Taylor & Francis US

Published: 2000

Total Pages: 384

ISBN-13: 9780121082604

This book is a detailed treatment of volume and surface force-densities and mechanical stresses in electrically and/or magnetically polarized bodies. The classical approach applies equally well to the electric and/or to the magnetic case. The issue of computation of force densities in materials is still a controversial one, but it is very important in many practical applications. These include the design of electric machines and various power apparatus, permanent magnet devices, and piezo-electric actuators and sensors. By combining electrodynamic theory, continuum mechanics and classical thermodynamics, important and reliable formulas for force densities are derived and settled. In particular, the well-known controversy between the Helmholtz and the Kelvin formulas for force densities in linear fluid dielectrics is analyzed in detail in the light of existing experimental results. * Thoroughly examines the role of mechanical stress tensor in electric and magnetic polarized materials; its connection with Maxwell's stress tensor is elucidated; the classical Cauchy's argument required to introduce the mechanic stress tensor (the Cauchy cut) is modified in such a way to be applicable to polarized materials * The constitutive relationships of polarized materials are derived from those holding for unpolarized materials * Closely examines the concept of electric and magnetic field energy and its connection with the thermodynamic internal energy of matter * Considers the role of magneto-hydro-statics (MHS) as a modern comprehensive theory including both magnetostatics and hydrostatics; describes several experimental MHS devices suited to test the theory * Examines magneticmaterials from both points of view: Coulombian and Amperian * Provides several different expressions for the resultant force and moment acting upon an electronically or magnetically polarized material body, and compares the two

Electrodynamics of Solids

Author: Martin Dressel

Publisher: Cambridge University Press

Published: 2002-01-17

Total Pages: 490

ISBN-13: 9780521597265

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The authors of this book present a thorough discussion of the optical properties of solids, with a focus on electron states and their response to electrodynamic fields. A review of the fundamental aspects of the propagation of electromagnetic fields, and their interaction with condensed matter, is given. This is followed by a discussion of the optical properties of metals, semiconductors, and collective states of solids such as superconductors. Theoretical concepts, measurement techniques and experimental results are covered in three interrelated sections. Well-established, mature fields are discussed (for example, classical metals and semiconductors) together with modern topics at the focus of current interest. The substantial reference list included will also prove to be a valuable resource for those interested in the electronic properties of solids. The book is intended for use by advanced undergraduate and graduate students, and researchers active in the fields of condensed matter physics, materials science and optical engineering.

Mechanics and Electrodynamics of Magneto- and Electro-elastic Materials

Author: Raymond Ogden

Publisher: Springer Science & Business Media

Published: 2011-05-25

Total Pages: 268

ISBN-13: 3709107016

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This volume presents a state-of-the-art overview of the continuum theory of both electro- and magneto-sensitive elastomers and polymers, which includes mathematical and computational aspects of the modelling of these materials from the point of view of material properties and, in particular, the "smart-material" control of their mechanical properties.

Electromagnetic Processing of Materials

Author: Shigeo Asai

Publisher: Springer Science & Business Media

Published: 2012-02-12

Total Pages: 184

ISBN-13: 9400726457

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This book is both a course book and a monograph. In fact, it has developed from notes given to graduate course students on materials processing in the years 1989 to 2006. Electromagnetic Processing of Materials (EPM), originates from a branch of materials science and engineering developed in the 1980s as a field aiming to create new materials and/or design processes by making use of various functions which appear when applying the electric and magnetic fields to materials. It is based on transport phenomena, materials processing and magnetohydrodynamics. The first chapter briefly introduces the history, background and technology of EPM. In the second chapter, the concept of transport phenomena is concisely introduced and in the third chapter the essential part of magnetohydrodynamics is transcribed and readers are shown that the concept of transport phenomena does not only apply to heat, mass and momentum, but also magnetic field. The fourth chapter describes electromagnetic processing of electrically conductive materials such as electromagnetic levitation, mixing, brake, and etc., which are caused by the Lorentz force. The fifth chapter treats magnetic processing of organic and non-organic materials such as magnetic levitation, crystal orientation, structural alignment and etc., which are induced by the magnetization force. This part is a new academic field named Magneto-Science, which focuses on the development of super-conducting magnets. This book is written so as to be understood by any graduate student in engineering courses but also to be of interest to engineers and researchers in industries.

Principles of Electrodynamics

Author: Melvin Schwartz

Publisher: Courier Corporation

Published: 2012-04-24

Total Pages: 368

ISBN-13: 0486134679

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The 1988 Nobel Prize winner establishes the subject's mathematical background, reviews the principles of electrostatics, then introduces Einstein's special theory of relativity and applies it to topics throughout the book.

Modern Electrodynamics

Author: Andrew Zangwill

Publisher: Cambridge University Press

Published: 2013

Total Pages: 1005

ISBN-13: 0521896975

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An engaging writing style and a strong focus on the physics make this graduate-level textbook a must-have for electromagnetism students.

Basic Electromagnetism and Materials

Author: André Moliton

Publisher: Springer

Published: 2008-11-01

Total Pages: 430

ISBN-13: 9780387510859

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This textbook can be used to teach electromagnetism to a wide range of undergraduate science majors in physics, electrical engineering or materials science. By making lesser demands on mathematical knowledge than typical texts, and by emphasizing electromagnetic properties of materials and their applications, this text is particularly appropriate for students of materials science. Many competing books focus on the study of propagation waves either in the microwave or optical domain, whereas Basic Electromagnetism and Materials covers the entire electromagnetic domain and the physical response of materials to these waves.

Electrodynamics and Classical Theory of Fields and Particles

Author: A. O. Barut

Publisher: Courier Corporation

Published: 2012-04-30

Total Pages: 256

ISBN-13: 0486158713

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Comprehensive graduate-level text by a distinguished theoretical physicist reveals the classical underpinnings of modern quantum field theory. Topics include space-time, Lorentz transformations, conservation laws, equations of motion, Green’s functions, and more. 1964 edition.

Basic Electromagnetism and Materials

Author: André Moliton

Publisher: Springer Science & Business Media

Published: 2007-03-20

Total Pages: 440

ISBN-13: 0387493689

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Classical Electrodynamics

Author: Hans C. Ohanian

Publisher: Jones & Bartlett Publishers

Published: 2007

Total Pages: 0

ISBN-13: 9780977858279

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The new edition of this classic work in electrodynamics has been completely revised and updated to reflect recent developments in experimental data and laser technology. It is suitable as a reference for practicing physicists and engineers and it provides a basis for further study in classical and quantum electrodynamics, telecommunications, radiation, antennas, astrophysics, etc. The book can be used in standard courses in electrodynamics, electromagnetic theory, and lasers. Paying close attention to the experimental evidence as the basis for the theoretical development, the book's first five chapters follow the traditional introduction to electricity: vector calculus, electrostatic field and potential, BVPs, dielectrics, and electric energy. Chapters 6 and 7 provide an overview of the physical foundations of special relativity and of the four-dimensional tensor formalism. In Chapter 8, the union of Coulomb's law with the laws of special relativity gives issue to the relativistic form of Maxwell's equations. The book concludes with applications of Maxwell's equations in Chapters 9 through 16: magnetostatics, induction, magnetic materials, electromagnetic waves, radiation, waveguides, and scattering and diffraction. Numerous examples and exercises are included.