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  • 物理动力学[平装]
  • 共3个商家     52.70元~61.60
  • 作者:E.M.Lifshitz(作者),L.P.Pitaevskii(作者)
  • 出版社:世界图书出版公司;第1版(1999年5月1日)
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  • ISBN:9787506242646

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    This final volume of the Course of Theoretical Physics deals with physical kinetics, in the wide sense of the microscopic theory of processes in systems not in statistical equilibrium.
    In contrast to the properties of systems that are in statistical equilibrium, the kinetic properties are much more closely related to the nature of the microscopic interactions in a particular physical object. This is the reason for the enormous variety in such properties and the considerably greater complexity of the relevant theory. The choice of topics to be included in a general course of theoretical physics thereby becomes less clear.

    目录

    Preface
    Notation
    I. KINETIC THEORY OF GASES
    1. The distribution function
    2. The principle of detailed balancing
    3. Thc Boltzmann transport equation
    4. The H theorem
    5. The change to macroscopic equations
    6. The transport equation for a slightly inhomogeneous gas
    7. Thermal conduction in the gas
    8. Viscosity in the gas
    9. Symmetry of the kinetic coefficients
    10. Approximate solution of the transport equation
    11. Diffusion of a light gas in a heavy gas
    12. Diffusion of a heavy gas in a light gas
    13. Transport phenomena in a gas in an external field
    14. Phenomena in slightly rarefied gases
    15. Phenomena in highly rarefied gases
    16. Dynamical derivation of the transport equation
    17. The transport equation including three-particle collisions
    18. The virial expansion of the kinetic coefficients
    19. Fluctuations of the disturbution function in an equilibrium gas
    20. Fluctuations of the distribution function in a non-equilibruim gas
    Ⅱ THE DIFFUSION APPROXIMATION
    21.The Fokker-Planck equation
    22.A weakly ionized gas in an electric field
    23.Fluctuations in a weakly ionized non-equilbuim gas
    24.Recombination and ionization
    25.Ambipolar diffusion
    26.Ion mobiity in solution of strong electrolytes
    Ⅲ COLLISIONLESS PLASMAS
    27.The self-consistent field
    28.Spatial dispersion in plasmas
    29.The permitvity of a colllisionnless plasma
    30.Landau damping
    31.Permitivity of a maxwellian Palma
    Ⅳ COLLISIONS IN PLASMAS
    Ⅴ PLASMAS IN MAGNETIC FIELDS
    Ⅵ INSTABILITY THEORY
    Ⅶ INSULATORS
    Ⅷ QUANTUM LIQUIDS
    Ⅸ METALS
    Ⅹ THE DIAGRAM TECHNIQUE FOR NON-EQUILBRIUM
    Ⅺ SUPERCONDUCTORS
    Ⅻ KINETICS OF PHASE TRANSITIONS