The Notion of Activity in Chemistry

1st  part: The Activity in Classical Thermodynamics
Chapter 1: Thermodynamic systemsChapter 2: Gibbs and Helmhotz energiesChapter 3: Escaping tendency and molar Gibbs energyChapter 4 : Partial molar propertiesChapter 5: Chemical potential or partial molar Gibbs energyChapter 6: An overview of the notion of activityChapter 7: The concept of fugacityChapter 8:  Ideal solutionsChapter 9:  Definitions of the activityChapter 10: Activity of a gazChapter 11: Activities of non- electrolytes in solutionsChapter 12:Activities of electrolytes: definitions Chapter 13: Determination of the activity of non-electrolytesChapter 14: Determination of the activity of electrolytesChapter 15: Debye and Hückel 's relationsChapter 16:  Excess Gibbs energies and activitiesChapter 17:  Chemical  equilibrium  constants : activities and  Gibbs energies of reactionsChapter 18:  Derivation of thermodynamic equilibrium constants- pH and its measureChapter 19: General principles of calculations of ionic species concentrations in solutions                    involving  activities 
2nd  part: The Activity in Statistical Thermodynamics
Chapter 20: Statistical thermodynamics in briefChapter 21: Concept of ensembles and postulatesChapter 22: The canonical ensemble: notion of distributionChapter 23: Thermodynamic quantities in the framework of the canonical ensembleChapter 24: Other ensembles Chapter 25: Systems of molecules and subsystems  independent  distinguishable and                                      "indistinguishable" Chapter 26: Perfect gases  Chapter 27: Classical statistical mechanics- Notion of configuration -  Classical canonical                                            partition function    Chapter 28: The configurational  partition function - Molecular distribution functions Chapter 29: The radial distribution function Chapter 30: Radial distribution function and  thermodynamic quantities- calculations of the                                              internal energy and of the pressure of a system Chapter 31: Radial distribution function and calculation of the isothermal compressibility                    coefficient of a system Chapter 32: The chemical potential  and the radial distribution function .  General formal                       introduction  of the activity and  of the  activity coefficient  Chapter 33: Imperfect gases - The  virial coefficients in terms of interaction potential                                                         energies Chapter 34: A statistical  expression of the activity. A relation between it and the                                

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