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Electrodynamics of Moving Media

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Author(s): Paul Penfield, Jr., Hermann A. Haus
Series: Research monographs 40
Publisher: The MIT Press
Year: 1967

Language: English
Pages: xii + 276
City: Cambridge

Foreword
Acknowledgment
Preface
Contents
1. Introduction
1.1 What Is a Complete Formulation of Electrodynamics?
1.2 Past Controversy
1.3 Original Contributions of This Work
1.4 To Whom Is This Monograph Directed?
2. Nonrelativistic Continuum Mechanics and Thermodynamics
2.1 Kinematics
2.2 Continuum Mechanics
2.3 Conservation of Kinetic Momentum and Energy
2.4 Conservation of Momentum and Energy in an Inviscid Fluid
2.5 Conservation of Momentum and Energy in a Solid
2.6 Viscosity, Dissipation, and Heat Flow
2.7 Conclusions
3. Electromagnetism and Simple Polarizable Fluid
3.1 Electrodynamics of Charges in Free Space
3.2 Minkowski Formulation
3.3 Chu Formulation
3.4 Comparison of the Minkowski and Chu Formulations
3.5 The Role of Special Relativity
3.6 Quasi-Static Electromagnetism
3.7 Model of a Dipolar Fluid
3.8 Conclusions
3.9 The Subsystem Concept
4. Nonrelativistic Principle of Virtual Power
4.1 Galilean Relativity
4.2 The Principle of Virtual Power
4.3 Inviscid Fluid with No Heat Flow
4.4 Quasi-Static Electric-Field System
4.5 Polarizable Fluid
4.6 Three Systems with Dispersion
4.7 Symmetry of the Stress Tensors
4.8 Quasi-Static Magnetic Field and Magnetizable Matter
4.9 A Ferrite Supporting Spin Waves
4.10 Polarizable and Magnetizable Fluid or Solid
4.11 Gravity
5. Relativistic Principle of Virtual Power
5.1 Relativistic Transformation Laws
5.2 Relativistic Kinetics of a Continuum
5.3 Relativistic Principle of Virtual Power
5.4 Electromagnetic Fields
5.5 Inviscid Fluid without Heat Flow
5.6 Dissipation-Free Polarizable and Magnetizable Solid or Fluid
5.7 Four-Dimensional Notation
5.8 Principle of Virtual Power in Four-Dimensional Notation
5.9 Polarization, Magnetization, Ohmic Loss, and Heat Flow
5.10 Symmetry of Energy-Momentum Tensors
6. Hamilton's Principle
6.1 Steps in the Use of Hamilton's Principle
6.2 Advantages and Limitations of Hamilton's Principle
6.3 Nonrelativistic Inviscid Fluid
6.4 Electromagnetic Fields in Free Space
6.5 Nonrelativistic Electromagnetic Solid or Fluid
6.6 Relativistic Electromagnetic Fluid
7. Comparison of Several Formulations of Electrodynamics of Moving Media
7.1 Introduction
7.2 Chu Formulation
7.3 Minkowski Formulation
7.4 Amperian Formulation
7.5 Boffi Formulation
7.6 General Comparison of the Various Formulations
7.7 Advantages of the Various Formulations
8. Electrodynamics Literature
8.1 Four Common Omissions
8.2 Four Historical Controversies
8.3 Summary
A. Notation
B. Vector and Tensor Identities
C. Further Pressure and Stress Formulas
References
Author Index
Subject Index