by S. M. Blinder, Elvera Baron
Publisher: University of Michigan 2002
This course is designed to introduce students to a thorough, research-oriented view of Physical Chemistry. Students will solve the Schroedinger equation in 1-, 2-, and 3-dimensions for several problems of interest in chemistry, including the particle-in-a-box, harmonic oscillator, rigid rotor, and hydrogen atom. Further topics include atomic structure, valence-bond and molecular orbital theories of chemical bonding and group theory.
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by David Ronis - McGill University
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; etc.
by Walter John Moore
An account of physical chemistry for students of science and engineering. The treatment is more precise than is customary in elementary books, and most of the relationships have been given at least a heuristic derivation from fundamental principles.
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 Muhammad Akhyar Farrukh (ed.) - InTech
The book on Advanced Chemical Kinetics gives insight into different aspects of chemical reactions both at the bulk and nanoscale level. Sections: Kinetics Modeling and Mechanism, Kinetics of Nanomaterials, Kinetics Techniques.