49 results on '"Blankschtein, Daniel"'
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2. Statistical Mechanical Treatment of Chemical Reaction Equilibria and Sample Problem
3. Statistical Mechanical Interpretation of the Third Law of Thermodynamics, Calculation of the Helmholtz Free Energy and Chemical Potentials Using the Canonical Partition Function, and Sample Problems
4. Statistical Mechanical Treatment of Binary Liquid Mixtures
5. Grand-Canonical Ensemble, Statistical Fluctuations, and Sample Problems
6. Classical Statistical Mechanics and Sample Problem
7. Virial Coefficients in the Classical Limit, Statistical Mechanical Derivation of the van der Waals Equation of State, and Sample Problem
8. Configurational Integral and Statistical Mechanical Derivation of the Virial Equation of State
9. Translational, Vibrational, Rotational, and Electronic Contributions to the Partition Function of Monoatomic and Diatomic Ideal Gases and Sample Problem
10. Calculation of Average Thermodynamic Properties Using the Canonical Partition Function and Treatment of Distinguishable and Indistinguishable Molecules
11. Criterion of Chemical Reaction Equilibria, Standard States, and Equilibrium Constants for Gas-Phase Chemical Reactions
12. Statistical Mechanical Interpretation of Reversible Mechanical Work, Reversible Heat, and the First Law of Thermodynamics, the Micro-Canonical Ensemble and Entropy, and Sample Problem
13. Thermodynamic Properties of Ideal Gases of Diatomic Molecules Calculated Using Partition Functions and Sample Problems
14. Statistical Mechanics, Canonical Ensemble, Probability and the Boltzmann Factor, and Canonical Partition Function
15. Equilibrium Constants for Condensed-Phase Chemical Reactions, Response of Chemical Reactions to Temperature, and Le Chatelier’s Principle
16. Ideal Solution, Regular Solution, and Athermal Solution Behaviors, and Fugacity and Fugacity Coefficient
17. Chemical Reaction Equilibria: Stoichiometric Formulation and Sample Problem
18. Effect of Chemical Reaction Equilibria on Changes in Thermodynamic Properties and Sample Problem
19. Response of Chemical Reactions to Pressure, and Sample Problems
20. Criteria of Phase Equilibria, and the Gibbs Phase Rule
21. The Gibbs Phase Rule for Chemically-Reacting Systems and Sample Problem
22. Pure Liquid in Equilibrium with Its Pure Vapor, Integral Approach to Phase Equilibria, Composition Models, and Sample Problems
23. Application of the Gibbs Phase Rule, Azeotrope, and Sample Problem
24. Differential Approach to Phase Equilibria, Pressure-Temperature-Composition Relations, Clausius-Clapeyron Equation, and Sample Problem
25. Activity, Activity Coefficient, and Sample Problems
26. Generalized Gibbs-Duhem Relations for Mixtures, Calculation of Partial Molar Properties, and Sample Problem
27. Mixing Functions, Excess Functions, and Sample Problems
28. Mixture Equations of State, Mixture Departure Functions, Ideal Gas Mixtures, Ideal Solutions, and Sample Problem
29. Extensive and Intensive Mixture Properties and Partial Molar Properties
30. Entropy and Reversibility
31. The Second Law of Thermodynamics: Fundamental Concepts and Sample Problem
32. Heat Engine, Carnot Efficiency, and Sample Problem
33. The First Law of Thermodynamics for Open Systems: Derivation and Sample Problem
34. The First Law of Thermodynamics for Closed Systems: Derivation and Sample Problems
35. The First Law of Thermodynamics for Closed Systems: Thermal Equilibrium, the Ideal Gas, and Sample Problem
36. The First Law of Thermodynamics for Closed Systems: Sample Problem 4.1, Continued
37. Useful Definitions, Postulates, Nomenclature, and Sample Problems
38. The Principle of Corresponding States and Sample Problems
39. Departure Functions and Sample Problems
40. Evaluation of Thermodynamic Data of Pure Materials and Sample Problems
41. Equations of State of a Pure Material, Binodal, Spinodal, Critical Point, and Sample Problem
42. The Second Law of Thermodynamics, Maximum Work, and Sample Problems
43. The Combined First and Second Law of Thermodynamics, Availability, and Sample Problems
44. Manipulation of Partial Derivatives and Sample Problems
45. Fundamental Equations and Sample Problems
46. Properties of Pure Materials and Gibbs Free Energy Formulation
47. Flow Work and Sample Problems
48. Introduction to the Book
49. Lectures in Classical Thermodynamics with an Introduction to Statistical Mechanics
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