Chapter 3 - VSEPR Theory
Chapter 3 - Ligand Close Packing (LCP) Theory
Chapter 4 - Introduction to Symmetry - Part 1
Chapter 4 - Introduction to Symmetry - Part 2
Chapter 4 - Introduction to Symmetry - Part 3
Chapter 4 - Introduction to Symmetry - Part 4
Chapter 4 - Introduction to Symmetry - Part 5
Chapter 4 - Principles of Group Theory - Part 1
Chapter 4 - Principles of Group Theory - Part 2
Chapter 4 - Principles of Group Theory - Part 3
Chapter 4 - Symmetry and Molecular Vibrations - Part 1
Chapter 4 - Symmetry and Molecular Vibrations - Part 2
Chapter 5 - Molecular Orbitals of Diatomic Molecules
Chapter 5 - Photoelectron Spectroscopy of Molecules
Chapter 5 - Molecular Orbitals of Polyatomic Molecules
Chapter 5 - Molecular Orbital Scheme of Methane
Chapter 5 - Molecular Orbital Scheme of Water
Chapter 5 - Molecular Orbital Scheme of Ammonia
Chapter 5 - Molecular Orbital Scheme of Carbon Dioxide
Chapter 5 - Molecular Orbital Scheme of Boron Trifluoride
Chapter 5 - Hybrid Orbitals
Chapter 6 - Acid-Base Theories and Frontier Orbitals
Chapter 6 - Acid Strengths
Chapter 7 - Crystal Lattices
Chapter 7 - Lattice Energy
Chapter 8 - Descriptive Chemistry - Hydrogen
Chapter 8 - Descriptive Chemistry - Groups 1 & 2
Chapter 8 - Descriptive Chemistry - Group 13
Chapter 8 - Descriptive Chemistry - Group 14
Chapter 8 - Descriptive Chemistry - Group 15
Chapter 8 - Descriptive Chemistry - Group 16
Chapter 8 - Descriptive Chemistry - Group 17
Chapter 8 - Descriptive Chemistry - Group 18
Chapter 10 - Transition Metal Complexes - Introduction to Bonding Theories & Magnetic Susceptibility
Chapter 10 - Transition Metal Complexes - Crystal Field Theory
Chapter 10 - Transition Metal Complexes - Ligand Field Theory and MOs of Complexes
Chapter 11 - Transition Metal Complexes - Absorption Spectra
Chapter 12 - Transition Metal Compolexes - Reaction Mechanisms