The Throttling Process Liquefaction of Gases Internal Combustion Engines The Steam Engine 4.4 Real Refrigerators The Carnot Cycle 4.2 Refrigerators 4.3 Real Heat Engines The Thermodynamic Identity Entropy and Heat Revisited 3.5 Diffusive Equilibrium and Chemical Potential 3.6 Summary and a Look Ahead Part II: ThermodynamicsĬhapter 4: Engines and Refrigerators 4.1 Heat Engines Notation and Microscopic Physics Numerical Solution Īnalytic Solution 3.4 Mechanical Equilibrium and Pressure The Macroscopic View of Entropy 3.3 Paramagnetism
Predicting Heat Capacities Measuring Entropies Reversible and Irreversible Processes Chapter 3: Interactions and Implications 3.1 TemperatureĪ Silly Analogy Real-World Examples 3.2 Entropy and Heat Multiplicity of a Monatomic Ideal Gas Interacting Ideal Gases 2.6 EntropyĮntropy of an Ideal Gas Entropy of Mixing
Sharpness of the Multiplicity Function 2.5 The Ideal Gas Very Large Numbers Stirling's Approximation The Two-State Paramagnet 2.2 The Einstein Model of a Solid 2.3 Interacting Systems 2.4 Large Systems Heat Conduction Conductivity of an Ideal Gas Viscosity Diffusion Chapter 2: The Second Law 2.1 Two-State Systems Latent Heat Enthalpy 1.7 Rates of Processes Microscopic Model of an Ideal Gas 1.3 Equipartition of Energy 1.4 Heat and Work 1.5 Compression WorkĬompression of an Ideal Gas 1.6 Heat Capacities Except forthe preface, all of the excerpts are in pdf format.Ĭhapter 1: Energy in Thermal Physics 1.1 Thermal Equilibrium 1.2 The Ideal Gas In most cases the excerpt includes only part of the section.
Links within the table of contents below are to excerpts that can be downloadedfor viewing. The table of contents is also available in pdf format.That version comes straight out of the book, and includes page numbers. Schroeder, Department of Physics, Weber State UniversityĬopyright ©2000, Addison-Wesley Publishing Company Thermal Physics Contents Contents of AnIntroduction to Thermal Physicsīy Daniel V.
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