|
Recommendations... Physics of Waves
by William C. Elmore, Mark A. Heald
Ideal as a classroom text or for individual study, this unique one-volume overview of classical wave theory covers wave phenomena of acoustics, optics, electromagnetic radiations, and more.
|  |
| |  Stress Waves in Solids
by H. Kolsky
The most readable survey of the theoretical core of current knowledge available. The author gives a concise account of the classical theory necessary to an understanding of the subject and considers how this theory has been extended to solids.
| |
|
 An Elementary Treatise on Electricity: Second Edition
by James Clerk Maxwell
Maxwell made numerous contributions to science, but his greatest work was devoted to electricity. Here, he describes experiments proving that the electric charge can be measured. 1888 edition.
| |
| |  Classical Field Theory
by Davison E. Soper
Geared toward advanced undergraduates and graduate students, this text offers an accessible approach to continuum mechanics, electrodynamics and the mechanics of electrically polarized media, and gravity. 1976 edition.
| |
|
 A Treatise on Electricity and Magnetism, Vol. 2
by James Clerk Maxwell
Volume 2 of the great physicist and mathematician's final elaboration of the theory of electromagnetism covers magnetic induction, terrestrial magnetism, the mutual action of electric currents, much more. 1891 edition.
| |
| |  Thermoelectricity: An Introduction to the Principles
by D. K. C. MacDonald
Aimed at graduate-level students, this survey concentrates on conduction in solids, mainly metals. It supplies a highly readable history of thermoelectricity and includes an impressive amount of experimental data. 1962 edition.
| |
|
|
Products in Electromagnetism, Electricity, Waves | | |  | Classical Electricity and Magnetism: Second Edition
by Wolfgang K. H. Panofsky, Melba Phillips
Compact and precise coverage of the electrostatic field in vacuum; general methods for solution of potential problems; radiation reaction and covariant formulation of conservation laws of electrodynamics; much more. 1962 edition.
|
|  | The Classical Electromagnetic Field
by Leonard Eyges
This excellent text covers a year's course. Topics include vectors D and H inside matter, conservation laws for energy, momentum, invariance, form invariance, covariance in special relativity, and more.
|
| | Classical Field Theory
by Davison E. Soper
Geared toward advanced undergraduates and graduate students, this text offers an accessible approach to continuum mechanics, electrodynamics and the mechanics of electrically polarized media, and gravity. 1976 edition.
|
|  | Elasticity
by Robert William Soutas-Little
A comprehensive survey of the methods and theories of linear elasticity, this three-part introductory treatment covers general theory, two-dimensional elasticity, and three-dimensional elasticity. Ideal text for a two-course sequence on elasticity. 1984 edition.
|
|  | The Electromagnetic Field
by Albert Shadowitz
Comprehensive undergraduate text covers basics of electric and magnetic fields, building up to electromagnetic theory. Related topics include relativity theory. Over 900 problems, some with solutions. 1975 edition.
|
|  | Electromagnetic Fields and Interactions
by Richard Becker
This classic introduction to electromagnetic fields, thoroughly revised in 1964 and available here in a one-volume edition, includes a self-contained section on quantum theory. Problems with solutions. 148 illustrations.
|
|  | Electromagnetic Fields and Waves
by Vladimir Rojansky
This comprehensive introduction to classical electromagnetic theory covers the major aspects, including scalar fields, vectors, laws of Ohm, Joule, Coulomb, Faraday, Maxwell's equation, and more. With numerous diagrams and illustrations.
|
|  | Electromagnetism
by John C. Slater, Nathaniel H. Frank
A basic introduction to electromagnetism, supplying the fundamentals of electrostatics and magnetostatics, in addition to a thorough investigation of electromagnetic theory. Numerous problems and references. Calculus and differential equations required. 1947 edition.
|
| | An Elementary Treatise on Electricity: Second Edition
by James Clerk Maxwell
Maxwell made numerous contributions to science, but his greatest work was devoted to electricity. Here, he describes experiments proving that the electric charge can be measured. 1888 edition.
|
|  | The Forces of Matter
by Michael Faraday
These lectures by a famous inventor offer an easy-to-understand introduction to the interactions of the universe's physical forces. Six essays explore gravitation, cohesion, chemical affinity, heat, magnetism, and electricity. 1993 edition.
|
|  | Introduction to Electromagnetic Theory
by George E. Owen
Direct approach covers electrostatics of point charges, distributions of charge, conductors and dielectrics, currents and circuits, Lorentz force and magnetic field, magnetic media, Maxwell equations, more. 228 illustrations. 1963 edition.
|
|  | Introduction to Superconductivity: Second Edition
by Michael Tinkham
This classic text emphasizes physical arguments and minimizes theoretical formalism. Topics include the Bardeen-Cooper-Schrieffer and Ginzburg-Landau theories, magnetic properties of classic type II superconductors, the Josephson effect, more. 1996 edition.
|
|  | Lightning
by Martin A. Uman
Revised, updated edition of classic work on the physics of lightning covers phenomena, terminology, measurement, photography, spectroscopy, thunder, and more, including reviews of recent research. 140 figures and tables.
|
|  | The Lightning Discharge
by Martin A. Uman
Absorbing monograph by expert sets forth most of known properties of lightning: cloud and lightning charges, stepped leader, return stroke, dart leader, lightning on other planets, thunder, more. 144 illustrations.
|
|  | Magnetism: An Introductory Survey
by E. W. Lee
Professor Lee takes the reader through the early experiments and historical accomplishments, explaining principles behind such phenomena as magnetic behavior, paramagnetism and diamagnetism, ferrimagnetism, the earth's magnetism, and more.
|
|  | Physics of Electric Propulsion
by Robert G. Jahn
Geared toward advanced undergraduates and graduate students, this text develops the concepts of electrical acceleration of gases for propulsion, from primary physical principles to realistic space thruster designs. 1968 edition.
|
| | Physics of Waves
by William C. Elmore, Mark A. Heald
Ideal as a classroom text or for individual study, this unique one-volume overview of classical wave theory covers wave phenomena of acoustics, optics, electromagnetic radiations, and more.
|
|  | Principles of Electrodynamics
by Melvin Schwartz
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.
|
| | Stress Waves in Solids
by H. Kolsky
The most readable survey of the theoretical core of current knowledge available. The author gives a concise account of the classical theory necessary to an understanding of the subject and considers how this theory has been extended to solids.
|
|  | Theory of Electromagnetic Wave Propagation
by Charles Herach Papas
Excellent graduate-level text discusses Maxwell field equations, radiation from monochromatic sources in unbounded regions, radiation from wire antennas, radio-astronomical antennas, electromagnetic waves in a plasma, the Doppler effect, much more. 1965 edition.
|
|
| Next 7 |
|
|
|