Preface |
Structure of Atoms and Molecules / Part 1: |
Light, Electrons, and Nuclei / Chapter 1: |
Some Early Experiments in Atomic Physics / 1.1: |
The Nature of Light / 1.2: |
The Bohr Model / 1.3: |
Particle-Wave Duality / 1.4: |
Electronic Properties of Atoms / 1.5: |
Nuclear Binding Energy / 1.6: |
Nuclear Stability / 1.7: |
Types of Nuclear Decay / 1.8: |
Predicting Decay Modes / 1.9: |
Basic Quantum Mechanics and Atomic Structure / Chapter 2: |
The Postulates / 2.1: |
The Hydrogen Atom / 2.2: |
The Helium Atom / 2.3: |
Slater Wave Functions / 2.4: |
Electron Configurations / 2.5: |
Spectroscopic States / 2.6: |
Covalent Bonding in Diatomic Molecules / Chapter 3: |
The Basic Ideas of Molecular Orbital Methods / 3.1: |
The H[subscript 2 superscript +] and H[subscript 2] Molecules / 3.2: |
Diatomic Molecules of Second-Row Elements / 3.3: |
Photoelectron Spectroscopy / 3.4: |
Heteronuclear Diatomic Molecules / 3.5: |
Electronegativity / 3.6: |
Spectroscopic States for Molecules / 3.7: |
A Survey of Inorganic Structures and Bonding / Chapter 4: |
Structures of Molecules Having Single Bonds / 4.1: |
Resonance and Formal Charge / 4.2: |
Complex Structures-A Preview of Coming Attractions / 4.3: |
Electron-Deficient Molecules / 4.4: |
Structures Having Unsaturated Rings / 4.5: |
Bond Energies / 4.6: |
Symmetry and Molecular Orbitals / Chapter 5: |
Symmetry Elements / 5.1: |
Orbital Symmetry / 5.2: |
A Brief Look at Group Theory / 5.3: |
Construction of Molecular Orbitals / 5.4: |
Orbitals and Angles / 5.5: |
Simple Calculations Using the Huckel Method / 5.6: |
Condensed Phases / Part 2: |
Dipole Moments and Intermolecular Interactions / Chapter 6: |
Dipole Moments / 6.1: |
Dipole-Dipole Forces / 6.2: |
Dipole-Induced Dipole Forces / 6.3: |
London (Dispersion) Forces / 6.4: |
The van der Waals Equation / 6.5: |
Hydrogen Bonding / 6.6: |
Cohesion Energy and Solubility Parameters / 6.7: |
Ionic Bonding and Structures of Solids / Chapter 7: |
Energetics of Crystal Formation / 7.1: |
Madelung Constants / 7.2: |
The Kapustinskii Equation / 7.3: |
Ionic Sizes and Crystal Environments / 7.4: |
Crystal Structures / 7.5: |
Solubility of Ionic Compounds / 7.6: |
Proton and Electron Affinities / 7.7: |
Structures of Metals / 7.8: |
Defects in Crystals / 7.9: |
Phase Transitions in Solids / 7.10: |
Heat Capacity / 7.11: |
Hardness of Solids / 7.12: |
Dynamic Processes in Inorganic Solids / Chapter 8: |
Characteristics of Solid-State Reactions / 8.1: |
Kinetic Models for Reactions in Solids / 8.2: |
Thermal Methods of Analysis / 8.3: |
Effects of Pressure / 8.4: |
Reactions in Some Solid Inorganic Compounds / 8.5: |
Phase Transitions / 8.6: |
Reactions at Interfaces / 8.7: |
Diffusion in Solids / 8.8: |
Sintering / 8.9: |
Drift and Conductivity / 8.10: |
Acids, Bases, and Solvents / Part 3: |
Acid-Base Chemistry / Chapter 9: |
Arrhenius Theory / 9.1: |
Bronsted-Lowry Theory / 9.2: |
Factors Affecting Strength of Acids and Bases / 9.3: |
Acid-Base Character of Oxides / 9.4: |
Proton Affinities / 9.5: |
Lewis Theory / 9.6: |
Catalytic Behavior of Acids and Bases / 9.7: |
The Hard-Soft Interaction Principle (HSIP) / 9.8: |
Electronic Polarizabilities / 9.9: |
The Drago Four-Parameter Equation / 9.10: |
Chemistry in Nonaqueous Solvents / Chapter 10: |
Some Common Nonaqueous Solvents / 10.1: |
The Solvent Concept / 10.2: |
Amphoteric Behavior / 10.3: |
The Coordination Model / 10.4: |
Chemistry in Liquid Ammonia / 10.5: |
Liquid Hydrogen Fluoride / 10.6: |
Liquid Sulfur Dioxide / 10.7: |
Superacids / 10.8: |
Chemistry of the Elements / Part 4: |
Chemistry of Metallic Elements / Chapter 11: |
The Metallic Elements / 11.1: |
Band Theory / 11.2: |
Group IA and IIA Metals / 11.3: |
Zintl Phases / 11.4: |
Aluminum and Beryllium / 11.5: |
The First-Row Transition Metals / 11.6: |
Second- and Third-Row Transition Metals / 11.7: |
Alloys / 11.8: |
Chemistry of Transition Metals / 11.9: |
The Lanthanides / 11.10: |
Organometallic Compounds of the Main Group Elements / Chapter 12: |
Preparation of Organometallic Compounds / 12.1: |
Organometallic Compounds of Group IA Metals / 12.2: |
Organometallic Compounds of Group IIA Metals / 12.3: |
Organometallic Compounds of Group IIIA Metals / 12.4: |
Organometallic Compounds of Group IVA Metals / 12.5: |
Organometallic Compounds of Group VA Elements / 12.6: |
Organometallic Compounds of Zn, Cd, and Hg / 12.7: |
Chemistry of Nonmetallic Elements I. Hydrogen, Boron, Oxygen and Carbon / Chapter 13: |
Hydrogen / 13.1: |
Boron / 13.2: |
Oxygen / 13.3: |
Carbon / 13.4: |
Chemistry of Nonmetallic Elements II. Groups IVA and VA / Chapter 14: |
The Group IVA Elements / 14.1: |
Nitrogen / 14.2: |
Phosphorus, Arsenic, Antimony, and Bismuth / 14.3: |
Chemistry of Nonmetallic Elements III. Groups VIA to VIIIA / Chapter 15: |
Sulfur, Selenium, and Tellurium / 15.1: |
The Halogens / 15.2: |
The Noble Gases / 15.3: |
Chemistry of Coordination Compounds / Part 5: |
Introduction to Coordination Chemistry / Chapter 16: |
Structures of Coordination Compounds / 16.1: |
Metal-Ligand Bonds / 16.2: |
Naming Coordination Compounds / 16.3: |
Isomerism / 16.4: |
A Simple Valence Bond Description of Coordinate Bonds / 16.5: |
Magnetism / 16.6: |
A Survey of Complexes of First-Row Metals / 16.7: |
Complexes of Second- and Third-Row Metals / 16.8: |
The 18-Electron Rule / 16.9: |
Back Donation / 16.10: |
Complexes of Dinitrogen, Dioxygen, and Dihydrogen / 16.11: |
Ligand Fields and Molecular Orbitals / Chapter 17: |
Splitting of d Orbital Energies in Octahedral Fields / 17.1: |
Splitting of d Orbital Energies in Fields of Other Symmetry / 17.2: |
Factors Affecting [Delta] / 17.3: |
Consequences of Crystal Field Splitting / 17.4: |
Jahn-Teller Distortion / 17.5: |
Spectral Bands / 17.6: |
Molecular Orbitals in Complexes / 17.7: |
Interpretation of Spectra / Chapter 18: |
Splitting of Spectroscopic States / 18.1: |
Orgel Diagrams / 18.2: |
Racah Parameters and Quantitative Methods / 18.3: |
The Nephelauxetic Effect / 18.4: |
Tanabe-Sugano Diagrams / 18.5: |
The Lever Method / 18.6: |
Jorgensen's Method / 18.7: |
Charge Transfer Absorption / 18.8: |
Composition and Stability of Complexes / Chapter 19: |
Composition of Complexes in Solution / 19.1: |
Job's Method of Continuous Variations / 19.2: |
Equilibria Involving Complexes / 19.3: |
Distribution Diagrams / 19.4: |
Factors Affecting the Stability of Complexes / 19.5: |
Synthesis and Reactions of Coordination Compounds / Chapter 20: |
Synthesis of Coordination Compounds / 20.1: |
Substitution Reactions in Octahedral Complexes / 20.2: |
Ligand Field Effects / 20.3: |
Acid-Catalyzed Reactions of Complexes / 20.4: |
Base-Catalyzed Reactions of Complexes / 20.5: |
The Compensation Effect / 20.6: |
Linkage Isomerization / 20.7: |
Substitution in Square Planar Complexes / 20.8: |
The Trans Effect / 20.9: |
Electron Transfer Reactions / 20.10: |
Reactions in Solid Coordination Compounds / 20.11: |
Complexes Containing Metal-Carbon and Metal-Metal Bonds / Chapter 21: |
Binary Metal Carbonyls / 21.1: |
Structures of Metal Carbonyls / 21.2: |
Bonding of Carbon Monoxide to Metals / 21.3: |
Preparation of Metal Carbonyls / 21.4: |
Reactions of Metal Carbonyls / 21.5: |
Structure and Bonding in Metal Alkene Complexes / 21.6: |
Preparation of Metal Alkene Complexes / 21.7: |
Chemistry of Cyclopentadienyl and Related Complexes / 21.8: |
Bonding in Ferrocene / 21.9: |
Reactions of Ferrocene and Other Metallocenes / 21.10: |
Complexes of Benzene and Related Aromatics / 21.11: |
Compounds Containing Metal-Metal Bonds / 21.12: |
Coordination Compounds in Catalysis and Biochemistry / Chapter 22: |
Elementary Steps in Catalysis Processes / 22.1: |
Homogeneous Catalysis / 22.2: |
Bioinorganic Chemistry / 22.3: |
Ionization Energies / Appendix A: |
Character Tables for Selected Point Groups / Appendix B: |
Index |
Preface |
Structure of Atoms and Molecules / Part 1: |
Light, Electrons, and Nuclei / Chapter 1: |
Some Early Experiments in Atomic Physics / 1.1: |
The Nature of Light / 1.2: |
The Bohr Model / 1.3: |