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 Johannes Grotendorst - NIC
In this volume, experts from the fields of quantum chemistry, computer science and applied mathematics, present recent methodological and computational advances to research students in the field of theoretical chemistry and their applications.
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.
by Peter E. Blöchl - TU Clausthal
This book shall provide some chemical insight for physicist and material scientists. It is devoted to simple concepts that only require back-on-the-envelope calculations. The emphasis is on qualitative considerations instead of accurate predictions.
by Robert Balawender, Andrzej Holas - arXiv
Topics: Basic Massieu function, its Legendre and Massieu-Planck transforms for equilibrium state in terms of density matrix; Finite-temperature ensemble spin-density functional theory; Zero-temperature limit of the ensemble spin-density theory.