Theoretical Physics - A. S. Kompaneyets
Book information
- Book title : Theoretical Physics
- Author : A. S. Kompaneyets
File information
- File size : 28.3 Mb
- File format : PDF File
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Contents
Part I. Mechanics 11
Sec. 1. Generalized Coordinates 11
See. 2. Lagrange's Equation 13
Sec. 3. Examples of Lagrange's Equations 24
Sec. 4. Conservation Laws 30
Sec. 5. Motion in a Central Field 41
Sec. 6. Collision of Particles 48
Sec. 7. Small Oscillations 57
Sec. 8. Rotating Coordinate Systems. Tnertial Forces 66
Sec. 9. The Dynamics of a Rigid Body 73
Sec. 10. General Principles of Mechanics 81
Part II. Electrodynamics 92
Sec. 11. Vector Analysis 92
Sec. 12. The Electromagnetic Field. Maxwell's Equations 104
Sec. 13. The Action Principle for the Electromagnetic Field 117
Sec. 14. The Electrostatics of Point Charges. Slowly Varying Fields . . 124
Sec. 15. The Magnetostatics of Point Charges 135
Sec. 16. Electrodynamics of Material Media 144
Sec. 17; Plane Electromagnetic Waves 162
Sec. 18. Transmission of Signals. Almost Plane Waves 173
Sec. 19. The Emission of Electromagnetic Waves 181
Sec. 20. The Theory of Relativity 190
Sec. 21. Relativistic Dynamics 211
Part III. Quantum Mechanics 229
Sec. 22. The Inadequacy of Classical Mechanics.
The Analogy Between Mechanics and Geometrical Optics 229
Sec. 23. Electron Diffraction 238
Sec. 24. The Wave Equation 244
Sec. 25. Certain Problems of Quantum Mechanics 252
Sec. 26. Harmonic Oscillatory Motion in Quantum Mechanics
(Linear Harmonic Oscillator) 265
Sec. 27. Quantization of the Electromagnetic Field 271
Sec. 28. Quasi-Classical Approximation 280
Sec. 29. Operators in Quantum Mechanics 291
Sec. 30. Expansions into Wave Functions 301
Sec. 31. Motion in a Central Field 312
Sec. 32. Electron Spin 323
Sec. 33. Many-Electron Systems 334
Sec. 34. The Quantum Theory of Radiation 353
Sec. 35. The Atom in a Constant External Field 368
Sec. 36. Quantum Theory of Dispersion 379
Sec. 37. Quantum Theory of Scattering 385
Sec. 38. The Relativistic Wave Equation for an Electron 394
Part IV. Statistical Physics 413
Sec. 39. The Equilibrium Distribution of Molecules in an Ideal Gas . . 413
Sec. 40. Boltzmann Statistics (Translational Motion of a Molecule. Gas
in an External Field) 430
Sec. 41. Boltzmann Statistics (Vibrational and Rotational Molecular
Motion) 447
Sec. 42. The Application of Statistics to the Electromagnetic Field and
to Crystalline Bodies 457
Sec. 43. Bose Distribution 474
Sec. 44. Fermi Distribution 477
Sec. 45. Gibbs Statistics 498
Sec. 46. Thermodynamic Quantities 512
Sec. 47. The Thermodynamic Properties of Ideal Gases in Boltzmann
Statistics 535
Sec. 48. Fluctuations 546
Sec. 49. Phase Equilibrium 557
Sec. 50. Weak Solutions 568
Sec. 51. Chemical Equilibria 576
Sec. 52. Surface Phenomena 582
Appendix . 586
Bibliography 588
Subject Index 589
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