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.
4.50.
4.51.
4.52.4.45.
4.46.
4.47.
4.48.4.35.
4.36.
4.37.
4.38.
4.39.
4.40.
4.41.
4.42.
4.43.
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.Contents13
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