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Thermodynamics of interaction free systems

Thermodynamics of interaction free systems. In contrast to the textbook we ignore here for simplicity right from the beginning particle-wall interaction. Classical Hamiltonian. Ideal gases considered in the canonical ensemble. f actoring due to absence of interaction.

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Thermodynamics of interaction free systems

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  1. Thermodynamics of interaction free systems In contrast to the textbook we ignore here for simplicity right from the beginning particle-wall interaction Classical Hamiltonian Ideal gases considered in the canonical ensemble factoring due to absence of interaction

  2. Helmholtz free energy & all thermodynamic information With remember we showed

  3. With With

  4. We now consider a monatomic ideal gas of N atoms quantum mechanically with We go from the classical Hamilton function and the N particle Schroedinger equation Again absence of interaction factoring in single particle problems We will later have a proper discussion of indistinguishable particles and symmetry of the N-particle wave functions Consider single particle Schroedinger equation with boundary conditions 3-dim particle in a box problem

  5. remember 1-dim solutions Eigenfunctions Eigenenergies Quantum number x 3-dim particle in a box problem Eigenenergies of N particle 3-dim. Schroedinger equation Partition function of canonical ensemble

  6. Introducing the wave-number With With Classical approximation appropriate for

  7. Same free energy expression as obtained from classical partition function Same thermodynamics From we now understand origin of factor in classical partition function Note: the origin of additional factor 1/N! to resolve Gibb’s paradox requires an understanding of concept of indistinguishable quantum particles

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