Contents xv
4.53.CriticalParameters(Stony Brook)
Mixtures andPhase Separation
Entropy of Mixing(Michigan, MIT)
Leaky Balloon (Moscow Phys-Tech)
OsmoticPressure(MIT)
Clausius–Clapeyron(Stony Brook)
PhaseTransition (MIT)
Hydrogen Sublimation in IntergalacticSpace(Princeton)
Gas Mixture Condensation(Moscow Phys-Tech)
Air Bubble Coalescence (Moscow Phys-Tech)
Soap Bubble Coalescence (Moscow Phys-Tech)
Soap Bubbles in Equilibrium (Moscow Phys-Tech)QuantumStatistics
Fermi Energy of a 1D Electron Gas(Wisconsin-Madison)
Two-Dimensional Fermi Gas(MIT, Wisconson-Madison)
Nonrelativistic Electron Gas (Stony Brook,
Wisconsin-Madison, Michigan State)
Ultrarelativistic Electron Gas(Stony Brook)
QuantumCorrections to Equation of State(MIT,
Princeton, Stony Brook)
Speed ofSound inQuantumGases(MIT)
BoseCondensationCritical Parameters (MIT)
BoseCondensation(Princeton, Stony Brook)
How Hot the Sun? (Stony Brook)
Radiation Force (Princeton, Moscow Phys-Tech, MIT)
Hot Box and Particle Creation (Boston, MIT)
D-Dimensional Blackbody Cavity (MIT)
Fermi andBose GasPressure(Boston)
Blackbody Radiation and Early Universe(Stony Brook)
Photon Gas (Stony Brook)
Dark Matter(Rutgers)
Einstein Coefficients (Stony Brook)
Atomic Paramagnetism (Rutgers, Boston)
Paramagnetism atHighTemperature(Boston)
One-Dimensional Ising Model (Tennessee)
Three Ising Spins (Tennessee)
NIndependent Spins (Tennessee)
NIndependent Spins, Revisited (Tennessee)
Ferromagnetism(Maryland, MIT)
Spin Waves in Ferromagnets (Princeton, Colorado)4.69.
4.70.
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4.88.4.67.
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