| Titre : |
Classical electricity and magnetism |
| Type de document : |
texte imprimé |
| Auteurs : |
Panofsky, Wolfgang Kurt Hermann, Auteur ; Phillips, Melba, Auteur |
| Mention d'édition : |
2 éd. |
| Editeur : |
London : Addison-Wesley |
| Année de publication : |
1962 |
| Importance : |
XIV, 494 p. |
| Présentation : |
ill. |
| Format : |
21 cm |
| Note générale : |
Bibliogr. p. 479-482. - Index |
| Langues : |
Anglais (eng) |
| Mots-clés : |
Magnetism
Electricity
Electromagnetic theory
Relativity (Physics)
Électromagnétisme
Relativité (Physique)
Electricité
Magnétisme |
| Index. décimale : |
537 Électricité. Magnétisme. Électromagnétisme |
| Note de contenu : |
In summary :
1. The electrostatic field in vacuum
2. Boundary conditions and relation of microscopic to macroscopic fields
3. General methods for the solution of potential problems
4. Two-dimensional potential problems
5. Three dimensional potential problems
6. Energy relations and forces in the electrostatic field
7. Steady currents and their interaction
8. Magnetic materials and boundary value problems
9. Maxwell's equations
10. Energy, force, and momentum relations in the electromagnetic field
11. The wave equation and plane wave
12. Conducting fluids in a magnetic field (magnetohydrodynamics)
13. Waves in the presence of metallic boundaries
14. The inhomogeneous wave equation
15. The experimental basis for the theory of special relativity
... |
Classical electricity and magnetism [texte imprimé] / Panofsky, Wolfgang Kurt Hermann, Auteur ; Phillips, Melba, Auteur . - 2 éd. . - London : Addison-Wesley, 1962 . - XIV, 494 p. : ill. ; 21 cm. Bibliogr. p. 479-482. - Index Langues : Anglais ( eng)
| Mots-clés : |
Magnetism
Electricity
Electromagnetic theory
Relativity (Physics)
Électromagnétisme
Relativité (Physique)
Electricité
Magnétisme |
| Index. décimale : |
537 Électricité. Magnétisme. Électromagnétisme |
| Note de contenu : |
In summary :
1. The electrostatic field in vacuum
2. Boundary conditions and relation of microscopic to macroscopic fields
3. General methods for the solution of potential problems
4. Two-dimensional potential problems
5. Three dimensional potential problems
6. Energy relations and forces in the electrostatic field
7. Steady currents and their interaction
8. Magnetic materials and boundary value problems
9. Maxwell's equations
10. Energy, force, and momentum relations in the electromagnetic field
11. The wave equation and plane wave
12. Conducting fluids in a magnetic field (magnetohydrodynamics)
13. Waves in the presence of metallic boundaries
14. The inhomogeneous wave equation
15. The experimental basis for the theory of special relativity
... |
|
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