Thermodynamics, Statistical Physics, and Quantum Mechanics

Contents

PART II: SOLUTIONS

xix

4.Thermodynamics and Statistical Physics

IntroductoryThermodynamics

4.1.

4.2.

4.3.

4.4.

4.5.

4.6.

4.7.

4.8.

4.9.

4.10.

4.11.

4.12.

4.13.

4.14.

4.15.

4.16.

4.17.

4.18.

4.19.

4.20.

4.21.

4.22.

4.23.

4.24.

4.25.

4.26.

4.27.

4.28.

4.29.

4.30.

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Why Bother? (MoscowPhys-Tech)

SpaceStationPressure(MIT)

Baron vonMünchausen and IntergalacticTravel(Moscow

Phys-Tech)

RailwayTanker (MoscowPhys-Tech)

MagicCarpet(MoscowPhys-Tech)

TeacupEngine(Princeton,MoscowPhys-Tech)

GrandLunarCanals(MoscowPhys-Tech )

FrozenSolid(MoscowPhys-Tech)

Tea in Thermos(MoscowPhys-Tech)

HeatLoss(MoscowPhys-Tech)

Liquid–Solid–Liquid(Moscow Phys-Tech)

HydrogenRocket(MoscowPhys-Tech)

Maxwell–Boltzmann Averages (MIT)

SlowlyLeaking Box(MoscowPhys-Tech, StonyBrook

(a,b))

SurfaceContamination(Wisconsin-Madison)

Bell Jar (MoscowPhys-Tech)

Hole in Wall(Princeton)

BallastVolume Pressure(MoscowPhys-Tech)

Rocket inDrag(Princeton)

Adiabatic Atmosphere(Boston, Maryland)

AtmosphericEnergy(Rutgers)

Puncture(Moscow Phys-Tech)

Heat and Work

Cylinder withMassivePiston(Rutgers,Moscow

Phys-Tech)

SpringCylinder(MoscowPhys-Tech)

IsothermalCompression andAdiabatic Expansion of

Ideal Gas(Michigan)

Isochoric Cooling and Isobaric Expansion(Moscow

Phys-Tech)

Venting(MoscowPhys-Tech)

Cylinder and Heat Bath(Stony Brook)

HeatExtraction(MIT, Wisconsin-Madison)

Heat Capacity Ratio (MoscowPhys-Tech)