 Chemical Thermodynamics: Basic Theory and Methods, 6th Edition
ISBN: 978-0-471-33107-0
Hardcover
580 pages
March 2000
US $145.00
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Mathematical Preparation for Thermodynamics.
The First Law of Thermodynamics.
Enthalpy, Enthalpy of Reaction, and Heat Capacity.
Application of the First Law to Gases.
The Second Law of Thermodynamics.
Equilibrium and Spontaneity for Systems at Constant Temperature: The Gibbs, Helmholtz, Planck, and Massieu Functions.
Application of the Gibbs Function and the Planck Function to Some Phase Changes.
The Third Law of Thermodynamics.
Application of the Gibbs Function and the Planck Function to Chemical Changes.
Thermodynamics of Systems of Variable Composition.
Mixtures of Gases.
The Phase Rule.
The Ideal Solution.
Dilute Solutions of Nonelectrolyte.
Activities, Excess Gibbs Function, and Standard States for Nonelectrolytes.
Determination of Nonelectrolyte Activities and Excess Gibbs Function from Experimental Data.
Calculation of Partial Molar Quantities and Excess Molar Quantities from Experimental Data: Volume and Enthalpy.
Activity, Activity Coefficients, and Osmotic Coefficients of Strong Electrolytes.
Changes in Gibbs Function for Processes Involving Solutions.
Systems Subject to a Gravitational Field.
Estimation of Thermodynamic Quantities.
Practical Mathematical Techniques.
Concluding Remarks.
Index.
The First Law of Thermodynamics.
Enthalpy, Enthalpy of Reaction, and Heat Capacity.
Application of the First Law to Gases.
The Second Law of Thermodynamics.
Equilibrium and Spontaneity for Systems at Constant Temperature: The Gibbs, Helmholtz, Planck, and Massieu Functions.
Application of the Gibbs Function and the Planck Function to Some Phase Changes.
The Third Law of Thermodynamics.
Application of the Gibbs Function and the Planck Function to Chemical Changes.
Thermodynamics of Systems of Variable Composition.
Mixtures of Gases.
The Phase Rule.
The Ideal Solution.
Dilute Solutions of Nonelectrolyte.
Activities, Excess Gibbs Function, and Standard States for Nonelectrolytes.
Determination of Nonelectrolyte Activities and Excess Gibbs Function from Experimental Data.
Calculation of Partial Molar Quantities and Excess Molar Quantities from Experimental Data: Volume and Enthalpy.
Activity, Activity Coefficients, and Osmotic Coefficients of Strong Electrolytes.
Changes in Gibbs Function for Processes Involving Solutions.
Systems Subject to a Gravitational Field.
Estimation of Thermodynamic Quantities.
Practical Mathematical Techniques.
Concluding Remarks.
Index.
