Statistical Physics, Part 1A lucid presentation of statistical physics and thermodynamics which develops from the general principles to give a large number of applications of the theory. |
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Page vi
... GASES § 37. The Boltzmann distribution § 38. The Boltzmann distribution in classical statistics § 39. Molecular collisions § 40. Ideal gases not in equilibrium § 41. The free energy of an ideal Boltzmann gas § 42. The equation of state ...
... GASES § 37. The Boltzmann distribution § 38. The Boltzmann distribution in classical statistics § 39. Molecular collisions § 40. Ideal gases not in equilibrium § 41. The free energy of an ideal Boltzmann gas § 42. The equation of state ...
Page 225
... GASES § 74. Deviations of gases from the ideal state THE equation of state of an ideal gas can often be applied to actual gases with sufficient accuracy . This approximation may , however , be inadequate , and it is then necessary to ...
... GASES § 74. Deviations of gases from the ideal state THE equation of state of an ideal gas can often be applied to actual gases with sufficient accuracy . This approximation may , however , be inadequate , and it is then necessary to ...
Page 232
... gas . Eliminating § , we can obtain the equation of state in the form of the series ( 75.1 ) with any desired number of terms . * § 76. Van der Waals ' formula In gases the interaction between molecules is very weak . As this inter ...
... gas . Eliminating § , we can obtain the equation of state in the form of the series ( 75.1 ) with any desired number of terms . * § 76. Van der Waals ' formula In gases the interaction between molecules is very weak . As this inter ...
Contents
Elementary excitations in a quantum Fermi liquid | 1 |
Interaction of quasiparticles | 2 |
Magnetic susceptibility of a Fermi liquid | 3 |
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atoms axis body Bravais lattice calculate cell chemical potential classical coefficients components concentration condition constant coordinates correlation function corresponding critical point crystal denote density depends derivative determined electron elements entropy equal equation expansion expression Fermi field fluctuations formula free energy frequency gases Gibbs distribution given gives Hamiltonian Hence ideal gas integral interaction irreducible representations liquid macroscopic magnetic matrix mean square mean value molecule momenta momentum motion N₁ number of particles obtain order parameter P₁ partition function phase transition phonon plane pressure PROBLEM properties Quantum Mechanics reciprocal lattice regarded relation result rotational second kind solid solution solvent space group specific heat statistical substance Substituting subsystem suffix surface symmetry temperature theory thermal thermodynamic potential thermodynamic quantities tion total number transformation transition point vapour variables velocity vibrations volume zero ӘР