Description
Electrodynamics of Continua II
(Volume II). - 9 Elastic Ferromagnets. - 9. 0. An Overview of Basic Equations. - 9. 1. Scope of the Chapter. - 9. 2. Model of Interactions. - 9. 3. Balance Equations. - 9. 4. Constitutive Theory. - 9. 5. Résumé of Basic Equations. - 9. 6. Coupled Magnetoelastic Waves in Ferromagnets. - 9. 7. Applications of the Magnon-Phonon Coupling. - 9. 8. Other Works. - 10 Magnetohydrodynamics. - 10. 1. Scope of the Chapter. - 10. 2. Basic Equations of Electromagnetic Fluids. - 10. 3. Magnetohydrodynamic Approximation. - 10. 4. Perfect Magnetohydrodynamics. - 10. 5. Incompressible Viscous Magnetohydrodynamic Flow. - 10. 6. One-Dimensional Compressible Flow. - 10. 7. Shock Waves in Magnetohydrodynamics. - 10. 8. Magnetohydrodynamic Equilibria. - 10. 9. Equilibrium of Magnetic Stars. - 10. 10. Magnetohydrodynamic Stability. - 11 Eleetrohydrodynamics. - 11. 1. Scope of the Chapter. - 11. 2. Field Equations. - 11. 3. Charge Relaxation. - 11. 4. Stability Condition. - 11. 5. Helmholtz and Bernoulli Equations. - 11. 6. Equilibrium of a Free Interface. - 11. 7. Effect of Free Charges at an Interface. - 11. 8. Electrohydrodynamic Stability. - 11. 9. Electrohydrodynamic Flow in a Circular Cylindrical Conduit. - 11. 10. Electrogasdynamic Energy Converter. - 12 Ferrofluids. - 12. 1. Scope of the Chapter. - 12. 2. Constitutive Equations of Ferromagnetic Fluids. - 12. 3. Theory of Ferrofluids. - 12. 4. Existence and Stability of a Constant Magnetization in a Moving Ferrofluid. - 12. 5. Ferrohydrodynamic Approximation. - 12. 6. Some General Theorems in Ferrohydrodynamics. - 12. 7. Ferrohydrostatics. - 12. 8. Ferrohydrodynamic Flow of Nonviscous Fluids. - 12. 9. Simple Shear of a Viscous Ferrofluid. - 12. 10. Stagnation-Point Flow of a Viscous Ferrofluid. - 12. 11. Interfacial Stability of Ferrofluids. - 12. 12. Other Problems in Ferrofluids. - 13 Memory-Dependent ElectromagneticContinua. - 13. 1. Scope of the Chapter. - 13. 2. Constitutive Equations. - 13. 3. Thermodynamics of Materials with Continuous Memory. - 13. 4. Quasi-Linear and Linear Theories. - 13. 5. Rigid Bodies. - 13. 6. Dispersion and Absorption. - 13. 7. A Simple Atomic Model. - 13. 8. Free Motion of an Electron Under Magnetic Field. - 13. 9. Electromagnetic Waves in Memory-Dependent Solids. - 13. 10. Electromagnetic Waves in Isotropic Viscoelastic Materials. - 13. 11. Nonlinear Atomic Models for Polarization. - 13. 12. Constitutive Equations of Birefringent Viscoelastic Materials. - 13. 13. Propagation of Waves in Birefringent Viscoelastic Materials. - 13. 14. Photoviscoelasticity. - 14 Nonlocal Electrodynamics of Elastic Solids. - 14. 1. Scope of the Chapter. - 14. 2. Constitutive Equations. - 14. 3. Thermodynamics. - 14. 4. Linear Theory. - 14. 5. Material Symmetry. - 14. 6. Nature of Nonlocal Moduli. - 14. 7. Nonlocal Rigid Solids. - 14. 8. Electromagnetic Waves. - 14. 9. Point Charge. - 14. 10. Rigid Magnetic Solids. - 14. 11. Superconductivity. - 14. 12. Piezoelectric Waves. - 14. 13. Infrared Dispersion and Lattice Vibrations. - 14. 14. Memory-Dependent Nonlocal Electromagnetic Elastic Continua. - 14. 15. Linear Nonlocal Theory for Electromagnetic Elastic Solids. - 14. 16. Natural Optical Activity. - 14. 17. Anomalous Skin Effects. - 15 Relativistic Electrodynamics of Continua. - 15. 1. Scope of the Chapter. - 15. 2. Space-Time Notation. - 15. 3. Relativistic Kinematics of Continua. - 15. 4. Covariant Formulation of Maxwell's Equations in Matter. - 15. 5. Relativistically Invariant Balance Laws. - 15. 6. Electromagnetic Interactions with Matter. - 15. 7. Thermoelastic Electromagnetic Insulators. - 15. 8. Electromagnetic Fluids. - 15. 9. Further Problems in the Relativistic Electrodynamics of Continua. - References. Language: English
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Identifiant Fruugo:
337901038-741560398
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ISBN:
9781461279280