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 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.
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 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.
by J.P. Novak, S. Labik, I. Malijevska - Institute of Chemical Technology, Prague
The book covers the fundamental concepts of physical chemistry: state behaviour of gases, liquids, and solids, chemical thermodynamics, phase equilibrium, chemical equilibrium, electrochemistry, chemical kinetics and transport processes, etc.