Synopses & Reviews
Quantum mechanics embraces the behavior of all known forms of matter, including the atoms and molecules from which we, and all living organisms, are composed.
Molecular Quantum Mechanics leads us through this absorbing yet challenging subject, exploring the fundamental physical principles that explain how all matter behaves.
With the clarity of exposition and extensive learning features that have established the book as a leading text in the field, Molecular Quantum Mechanics takes us from the foundations of quantum mechanics, through quantum models of atomic, molecular, and electronic structure, and on to discussions of spectroscopy, and the electronic and magnetic properties of molecules. Lucid explanations and illuminating artworks help to visualise the many abstract concepts upon which the subject is built.
Fully updated to reflect the latest advances in computational techniques, and enhanced with more mathematical support and worked examples than ever before, Molecular Quantum Mechanics remains the ultimate resource for those wishing to master this important subject.
Online Resource Centre
For students:
Interactive worksheets to help students master mathematical concepts through hands-on learning
Solutions to selected exercises and problems
For registered adopters of the book:
Figures in electronic format
Solutions to all exercises and problems
About the Author
Professor Peter W. Atkins is Professor of Chemistry, and fellow of Lincoln College at University of Oxford, UK.
Professor Ronald S. Friedman is of the Department of Chemistry at Indiana University Purdue University, Fort Wayne, USA.
Table of Contents
0. Introduction and orientation
1. The foundations of quantum mechanics
2. Linear motion and the harmonic oscillator
3. Rotational motion and the hydrogen atom
4. Angular momentum
5. Group theory
6. Techniques of approximation
7. Atomic spectra and atomic structure
8. An introduction to molecular structure
9. Computational chemistry
10. Molecular rotations and vibrations
11. Molecular electronic transitions
12. The electric properties of molecules