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Elementary Molecular Quantum Mechanics
Mathematical Methods and Applications
Describes the methods used in molecular quantum mechanics
Valerio Magnasco (Author)
9780444626479, Elsevier Science
Hardback, published 8 August 2013
1012 pages
23.4 x 19 x 4.8 cm, 1.84 kg
"This interesting book is devoted to both the mathematical methods and applications of Quantum Mechanics in Chemistry...very useful not only for students but for scientists and researchers." --Zentralblatt MATH "Magnasco presents this detailed quantum chemistry text, building up from basic mathematical foundations to multi-atom systems and molecular vibrations. The first several chapters cover linear algebra, approximation methods, coordinate systems, differential equations, special functions, functions of a complex variable, and matrix mechanics." --ProtoView.com, April 2014
The second edition of Elementary Molecular Quantum Mechanics shows the methods of molecular quantum mechanics for graduate University students of Chemistry and Physics. This readable book teaches in detail the mathematical methods needed to do working applications in molecular quantum mechanics, as a preliminary step before using commercial programmes doing quantum chemistry calculations. This book aims to bridge the gap between the classic Coulson’s Valence, where application of wave mechanical principles to valence theory is presented in a fully non-mathematical way, and McWeeny’s Methods of Molecular Quantum Mechanics, where recent advances in the application of quantum mechanical methods to molecular problems are presented at a research level in a full mathematical way. Many examples and mathematical points are given as problems at the end of each chapter, with a hint for their solution. Solutions are then worked out in detail in the last section of each Chapter.
Part 1: Mathematical methods 1. Mathematical Foundations and Approximation Methods 2. Coordinate Systems 3. Differential Equations in Quantum Mechanics 4. Special Functions 5. Functions of a Complex Variable 6. Matrices 7. Molecular Symmetry 8. Abstract Group Theory 9. The Electron Spin 10. Angular Momentum Methods for Atoms Part 2: Applications 11. The Physical Principles of Quantum Mechanics 12. Atomic Orbitals 13. Variational Calculations 14. Many-Electron Wavefunctions and Model Hamiltonians 15. Valence Bond Theory and The Chemical Bond 16. Post-Hartree-Fock Methods 17. Atomic and Molecular Interactions 18. Evaluation of Molecular Integrals 19. Relativistic Molecular Quantum Mechanics 20. Molecular Vibrations
Subject Areas: Quantum & theoretical chemistry [PNRP], Chemistry [PN], Quantum physics [quantum mechanics & quantum field theory PHQ]
