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Index Absolute zero temperature Adiabatic process Avogadro's number Black body Boltzmann constant Boltzmann factor Boundary work Calorie Carnot cycle Carnot cycle efficiency Carnot cycle with an ideal gas Clausius-Clapeyron equation Closed system Coefficient of linear expansion Coefficient of performance (heat pumps) Coefficient of performance (refrigerator) Coexistence curve Collision frequency Compressed liquid Compression ratio Conduction Constants Convection Conversion Factors Cosh Critical point Cycle Degrees of freedom Density Diffusion (ideal gas) Diffusivity Efficiency of a cycle Energy conservation principle Enthalpy Entropy Entropy changes (irreversible process) Entropy changes (reversible isothermal process) Entropy changes (reversible process) Equipartition theorem Evaporative cooling 2.20-1, 3.5 6.19 1.7, 4.7 5.17-22, 5.28 2.15, App C 3.4-5, 10.1, 11.2 5.2-9, 6.22 6.10-11 8.6-9, 8.13 8.8 8.9-13 7.9-10 1.2 4.5 8.18, 9.20 8.16-17, 9.20 4.2, 7.12 10.10 4.20 9.9 5.11-16, 10.18-21 App C 5.17 App C App B 4.2 8.1 3.7, 4.10 1.4-5, 1.7 (table) 10.12-18 10.19 8.6 2.1 5.10-11, 6.8-9, 9.11-12 2.10-18, 4.17, 6.12-13, 11.9-11 6.24-25 6.5 6.5, 6.16-19 3.6-9 7.16-18 Exact differential Extensive variable External combustion engine (see also Stirling cycle, Rankine cycle) Ferromagnetic mean field theory Ferromagnetic system First law of thermodynamics Fluid Fluid properties Free energy (Gibbs) Free energy (Helmholtz) Fundamental assumption of statistical mechanics Gamma (γ) Gas properties Gaussian integrals Heat Heat engine Heat pumps Hydrostatic system Hyperbolic functions Ideal cycle Ideal Gas Law Ideal gas properties Inexact differential Intensive variable Internal combustion engine (see also Otto cycle) Internal energy Interpolation Irreversible process Isentropic ideal gas process Isentropic magnetic field reduction (magnetic cooling) Isentropic process Ising model Isobaric process Isochoric process Isolated system Isothermal boundary work (ideal gas) Isothermal boundary work (solids & liquids) Isothermal compressibility Isothermal process 2.19 1.3 9.1 11.14-17 11.1, 11.14-20 2.18, 2.21, 5.1 4.1 App D 6.13, 7.2, 7.5-9 6.12-13 3.3 6.21 App D App A 2.18-20, 5.10-26 8.1 8.17-19 4.1 App B 8.6 3.11, 4.7-9, 4.12-13 5.5-8, 6.8-9, 6.17-18, 6.21-24 2.19, 5.4 1.3 9.1 2.3-4 4.26-29 6.2-5, 6.24-27 6.21-24, 6.29 11.11-12 6.19 2.25, 11.17-20 5.5 5.5, 9.1 6.1 5.5-6 5.8-9, 5.32 4.5-6, 4.31 5.5 Kinetic theory Kirchoff’s Law Latent heat Law of corresponding states Magnetic potential energy Maxwell relations Mean field theory Mean free path Mole Negative temperature Otto cycle Paramagnetic atom, properties Paramagnetic atoms, non-interacting Paramagnetic system Partial pressure Phase change, transition Phase plot Phase transition, first order Phase transition, second order Photon gas Physical Constants Pressure Pressure (gas) Process, thermodynamic Quality Quasistatic process R-134a Radiation, heat flow by Rankine cycle Rankine scale Refrigeration cycles Regenerator Relative humidity Reversible process RMS speed Saturation Second law of thermodynamics Significant figures Sinh Specific heat Specific volume Specific volume (molar) Speed distribution, ideal gas State of a system (definition) State, accessible 1.11-14 5.23 7.1-2, 7.12-13, 7.16-17 7.19 11.1-2 6.14-15 11.14-17 10.11 1.7, 4.7 11.12-14 9.6-10, 9.24 11.2-6 11.7-11, 11.21-22 11.1 4.13 7.1-3 4.2 7.2 7.2, 11.17-20 5.18 App C 1.8ff, 6.13 1.10-14 5.1 4.16 5.3 4.6, 4.31, 4.33, AppD.3 5.23-24 9.10-15 3.13 8.15-17 9.1 4.31 6.2-3 1.14, 3.10 4.15 2.10-11, 2.21, 6.1 1.15-17 App B 6.6-10 1.6, 1.7 (table), 4.17 1.7 10.1-5 1.3 2.10 State, microscopic Stirling cycle Swamp cooler System Tanh Temperature Temperature conversions Temperature, absolute zero Temperature, infinite Thermal conductivity Thermal energy Thermal equilibrium Thermal reservoir Thermal resistance Thermal transmittance Third law of thermodynamics Throttling Triple point Van der Waals model Vapor compression refrigeration cycle Virial expansion Viscosity Volume expansivity Water, properties Wind chill index Windows Work Work by a compressor Work during a cycle Work on a turbine Work, boundary Working fluid Zeroth law of thermodynamics 8/5/03 8/10/04 7/11/05 7/26/06 2.7 9.1-6 7.17 1.1 App B 2.15, 3.5-6 3.12-13 2.20, 3.5 3.6 5.12-13, 5.14 (table), 10.18-21 2.4, 4.9-10 2.13 3.1 5.14-16 5.25-26 2.21-22 9.18-19, 9.25 3.12, 4.2 4.21-25, 4.32, 7.5-9 9.17-20 4.25-26 10.21-24 4.4, 4.31 1.6, 4.5, 4.37, 6.29, 7.12-13, App D-G 3.15-16 5.24-26 2.1-2 9.12 8.1-4 9.12 See “boundary work” 8.1 2.17, 2.21 8/4/08