Thermodynamics, Statistical Physics, and Quantum Mechanics

(Axel Boer) #1
4.21.
4.22.

xiv


Atmospheric Energy(Rutgers)
Puncture(Moscow Phys-Tech)

Heat and Work
Cylinder withMassivePiston(Rutgers, Moscow
Phys-Tech)
Spring Cylinder (Moscow Phys-Tech)
IsothermalCompression andAdiabaticExpansion of
Ideal Gas (Michigan)
Isochoric Cooling and Isobaric Expansion (Moscow
Phys-Tech)
Venting(Moscow Phys-Tech)
Cylinder and Heat Bath(Stony Brook)
HeatExtraction(MIT, Wisconsin-Madison)
Heat Capacity Ratio (Moscow Phys-Tech)
Otto Cycle (Stony Brook)
Joule Cycle (Stony Brook)
Diesel Cycle (Stony Brook)
Modified Joule–Thomson (Boston)
Ideal Gas and Classical Statistics
PoissonDistribution inIdeal Gas(Colorado)
Polarization of Ideal Gas (Moscow Phys-Tech)
Two-Dipole Interaction (Princeton)
Entropy of Ideal Gas (Princeton)
Chemical Potential of Ideal Gas (Stony Brook)
Gas in Harmonic Well(Boston)
Ideal Gas in One-Dimensional Potential (Rutgers)
EquipartitionTheorem(Columbia, Boston)
DiatomicMolecules inTwo Dimensions(Columbia)
Diatomic Molecules in Three Dimensions(Stony Brook,
MichiganState)
Two-Level System (Princeton)
Zipper(Boston)
Hanging Chain(Boston)
Molecular Chain (MIT, Princeton, Colorado)
Nonideal Gas
Heat Capacities (Princeton)
Return of Heat Capacities(Michigan)
Nonideal Gas Expansion(Michigan State)
van der Waals (MIT)

4.49.
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4.51.
4.52.

4.45.
4.46.
4.47.
4.48.

4.35.
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4.44.

4.27.
4.28.
4.29.
4.30.
4.31.
4.32.
4.33.
4.34.

4.26.

4.24.
4.25.

4.23.

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