Introductory Physical Chemistry
by David Ronis
Publisher: McGill University 2011
Number of pages: 163
Topics: Probability and Statistics; The Maxwell-Boltzmann Distribution; Collision Rates, Diffusion and Viscosity; Collision Theory of the Rate Constant; First Law of Thermodynamics; Thermochemistry; Ideal Gas Carnot Engines and Efficiency; The Second Law of Thermodynamics; The Clausius Inequality and the Mathematical Statement of the Second Law; Entropy and the Third Law; The Chemical Potential; Maxwell Relations; The Free Energy; Eigenvalues and Thermodynamic Stability; Entropy of Mixing; Thermodynamics of Electrochemical Cells.
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by Keith H. Hughes - CCP6
The booklet contains primers to the topic of dissipative quantum systems and should serve as a guide to many of the recent developments in this field. It should be of interest to both the specialist and non-specialist in this field.
This is a book on computer simulation of matter. The book is built on the framework of statistical thermodynamics. It is intended to serve as the textbook for an advanced undergraduate / graduate physical chemistry course in molecular simulation.
by C. David Sherrill - Georgia Institute of Technology
The ebook covers the motivation for quantum mechanics, Schrödinger equation, postulates of quantum mechanics, some analytically soluble problems, approximate methods, molecular quantum mechanics, solving the electronic eigenvalue problem.
by S. Wilson
This text is concerned with the application of the many-body perturbation theory to arbitrary molecular systems. The method is computationally more efficient than other schemes and has a number of theoretical properties which make it attractive.