3rd ed. Wiley. 1990. 466 p.
Principles
Introduction
Definitions and Theorems of Group Theory
Molecular Symmetry and the Symmetry Groups
Representations of Groups
Group Theory and Quantum Mechanics
Symmetry-Adapted Linear Combinations
Applications
Molecular Orbital Theory and Its Applications in Organic Chemistry
Molecular Orbital Theory for Inorganic and Organometallic Compounds
Ligand Field Theory
Molecular Vibrations
Crustallographic Symmetry
Appendices
Matrix Algebra
Character Tables for Chemically Important Symmetry Groups
Correlation Table for Group Oh
Some Remarces About the Resonance Integral beta
The Shapes of f Orbitals
Character Tables for Some Double Groups
Elements of the g Matrix
Stereographic Projections for the 32 Crystallographic Point Groups
The 230 Space groups
Reading List
Principles
Introduction
Definitions and Theorems of Group Theory
Molecular Symmetry and the Symmetry Groups
Representations of Groups
Group Theory and Quantum Mechanics
Symmetry-Adapted Linear Combinations
Applications
Molecular Orbital Theory and Its Applications in Organic Chemistry
Molecular Orbital Theory for Inorganic and Organometallic Compounds
Ligand Field Theory
Molecular Vibrations
Crustallographic Symmetry
Appendices
Matrix Algebra
Character Tables for Chemically Important Symmetry Groups
Correlation Table for Group Oh
Some Remarces About the Resonance Integral beta
The Shapes of f Orbitals
Character Tables for Some Double Groups
Elements of the g Matrix
Stereographic Projections for the 32 Crystallographic Point Groups
The 230 Space groups
Reading List