Dependence of Magnetization on Magnetic Field Intensity. Magnetic Field Intensity in Magnetics and Magnetic Induction Vector. Differential Equations of the Macroscopic Magnetic Field in Mean Density of Space and Surface Molecular Currents 306ĥ.3. Vector Potential of a Magnetic Field in the Presence of Molecular Currents and Conduction Currents 302ĥ.2. Absolute (Gaussian) and Other Systems of Units, Theĥ.1. Evolution of Notions of the Nature of Magnetism. Direct Determination of the Field of Elementary Currents and theĤ.17. Elementary Currents and Magnetic Dipoles 278Ĥ.16. Total Potential Function of a System ofĤ.13. Potential Function of a Current in an External Magnetic Field 248Ĥ.10. Ponderomotive Forces Acting on a Current Loop in a Magneticįield. Boundary Conditions in the Magnetic Field of Currents. Comparison ofĭifferential Equations for an Electric and a Magnetic Fields 241Ĥ.8. Differential Equations of a Magnetic Field. Vector Potential of a Magnetic Field 234Ĥ.6. Transition from Line Currents to Currents Having a Finite CrossĤ.5. (in the Absence of Magnetizing Media) 218Ĥ.2. Ponderomotive Interaction of Steady Currents and Their Magnetic Field Electron Theory of Electrical Conductivity. Fundamental Concepts of the Electron Theory of Metals. Conversion of Energy in a Current Circuit.
Differential Form of Ohm’s and Joule’s Laws 188ģ.3. Stress Tensor of an Electric Field 175ģ.1. Reduction of Body Forces to Tensions 170Ģ.15. Ponderomotive Forces in Dielectrics 162Ģ.14.
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Free Energy of an Electric Field 154Ģ.13. Energy Transformations Connected with the Polarization ofĭielectrics. Energy of the Electric Field in Dielectrics 150Ģ.12. Temperature Dependence of Permittivity 144Ģ.11. Polarization of Dielectrics Whose Molecules Have a ConstantĮlectric Moment. Difference of the Field Acting on a Dipole from the Mean One 139Ģ.10.
Derivation of Equations for the Field in Dielectrics by Averaging theĢ.8. Micro- and Macroscopic Values of Physical Quantities 130Ģ.7. Direct Calculation of a Field When a Dielectric Is Present (inĢ.6. Electric Field in a Homogeneous Dielectric 122Ģ.5. Dependence of Polarization on the Field 113Ģ.3. Potential of an Electric Field Whenĭielectrics Are Present. Electric Moment and Potential of a Neutral Determining the Ponderornotive Forces from the Expression for Energy 99ġ.19. Energy of Interaction of Electric Charges 86ġ.18. Typical Problems of Electrostatics 77ġ.15. Potential of Space and Surface Charges 70ġ.13. Potential of an Electrostatic Field 50ġ.10. Continuity of the Tangential Components of the Vector E 45ġ.8. Electric Field of Charged Surfaces 33ġ.6. Note: IA file parameters may be different.įrom the Preface to the First Russian Edition 12įrom the Preface to the Third Russian Edition 13įrom the Preface to the Eighth Russian Edition 14Įlectric Field of Fixed Charges in the Absence of Dielectrics 23ġ.4. PDF | 600dpi | Cover | OCR | Bookmarked | Paginated | 53.9 MB (48.8 Zipped) | 695 Pages This is the translation of the Ninth Edition of the book. Leib and was first published by Mir Publishers in 1979. The book was translated from the Russian by G. I did not set out technical applications of the theory, but tried as far as possible to prepare the reader to pass over directly to studying the applied theory of electricity. On the other hand, I permitted myself to treat in somewhat greater detail than is usually the custom some questions (for example in the theory of dielectrics and magnetics). Not trying to achieve completeness of discussion, I omitted even comparatively important questions if they dropped out of the general line of the exposition (for example, thermoelectric phenomena and electrolysis). In comparison with this object, only a subordinate part is relegated to formal and logical harmony, and to a strict and ordered treatment. The main object of this book is to find out the physical meaning and content of the fundamental laws and postulates of the theory of electricity. The fundamentals of vector analysis are set out in the text as needed. The present book is intended for persons acquainted with differential and integral calculus and with vector algebra. In this post we will see a book titled Fundamentals of The Theory of Electricity by Igor E. One of the most outstanding and well-known Soviet physicists. Fundamentals of the Theory of Electricity is a classicalĬourse in electrodynamics written by Igor E. 1 BHARATHIAR UNIVERSITY, COIMBATORE-641 046 M.
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