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Integrating many new computer-oriented examples and problems throughout, this modern introduction to quantum chemistry covers quantum mechanics, atomic structure, and molecular electronics, and clearly demonstrates the usefulness and limitations of current quantum-mechanical methods for the calculation of molecular properties.Covers such areas as the Schrouml;dinger Equation, harmonic oscillator, angular momentum, hydrogen atom, theorems of quantum mechanics, electron spin and the Pauli Principle, the Virial Theorem and the Hellmann-Feynman Theorem, and more. Contains solid presentations of the mathematics needed for quantum chemistry, clearly explaining difficult or subtle points in detail. Offers full, step-by-step examinations of derivations that are easy to follow and understand. Offers comprehensive coverage of recent, revolutionary advances in modern quantum-chemistry methods for calculating molecular electronic structure, including the ab initio and semiempirical methods for molecular calculations. Now integrates over 500 problems throughout, with a substantial increase in the amount of computer applications, and fully updated discussions of molecular electronic structure calculations.For professionals in all branches of chemistry.
Ira N. Levine received his Ph.D. in General Chemistry from Harvard University in 1963. He specializes in both physical and quantum chemistry. Currently, he is a professor at the City University of New York, Brooklyn College.
Table of Contents
The Schrödinger Equation
The Particle in a Box
The Harmonic Oscillator
The Hydrogen Atom
Theorems of Quantum Mechanics
The Variation Method
lectron Spin and the Spin-Statistics Theorem
Electronic Structure of Diatomic Molecules
Theorems of Molecular Quantum Mechanics
Molecular Electronic Structure
Semiempirical and Molecular-Mechanics Treatments of Molecules
Comparisons of Methods
Answers to Selected Problems
Table of Contents provided by Publisher. All Rights Reserved.