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Preface. 1. The Evolving Realm of Inorganic Chemistry. PART A: COORDINATION CHEMISTRY. 2. An Introduction to Coordination Chemistry. The Historical Perspective. The History of Coordination Compounds. The Modern View of Coordination Compounds. An Introduction to the Nomenclature of Coordination Compounds. 3. Structures of Coordination Compounds. Stereoisomers. Octahedral Coordination Spheres. Square Planar Coordination Spheres. Tetrahedral Coordination Spheres. Other Coordination Spheres. Structural Isomers. 4. Bonding Theories for Coordination Compounds. Early Bonding Theories. The Crystal Field Theory. Consequences and Applications of Crystal Field Splitting. 5. Rates and Mechanisms of Reactions of Coordination Compounds. A Brief Survey of Reaction Types. Labile and Inert Coordination Compounds. Substitution Reactions of Octahedral Complexes. Redox or Electron Transfer Reactions. Substitution Reactions in Square Planar Complexes: The Kinetic Trans Effect. 6. Applications of Coordination Compounds. Applications of Monodentate Complexes. Two Keys to the Stability of Transition Metal Complexes. Application of Multidentate Complexes. Chelating Agents as Coordination Chemistry. PART B: SOLID STATE CHEMISTRY. 7. Solid State Structures. Types of Crystals. A-type Crystal Lattices. ABn-type Crystal Lattices. Structures Involving Polyatomic Molecules and Ions. Defect Structures. Spinel Structures: Connecting Crystal Field Effects with Solid State Structures. 8. Solid State Energetics. Lattice Energy: A Theoretical Evaluation. Lattice Energy: Thermodynamic Cycles. Lattices Energies and Ionic Radii: Connecting Crystal Field Effects with Solid State Energetics. Part C. Descriptive Chemistry of the Representative Elements. PART C: DESCRIPTIVE CHEMISTRY OF THE REPRESENTATIVE ELEMENTS. 9. Building a Network of Ideas to Make Sense of the Periodic Table. The Periodic Law. The Uniqueness Principle. The Diagonal Effect. The Inert Pair Effect. Metal, Non-Metal, and Metalloid Regions. 10. Hydrogen and Hydrides. The Origin of the Elements (and of Us!). The Discovery, Preparation, and Uses of Hydrogen. Isotopes of Hydrogen. Radioactive Processes Involving Hydrogen. Hydrides and the Network. The Role of Hydrogen in Various Alternative Energy Sources. 11. Oxygen, Aqueous Solutions, and the Acid Base Character of Oxides and Hydroxides. Oxygen. Water and Aqueous Solutions. The Acid-Base Character of Oxides and Hydroxides in Aqueous Solution. The Relative Strengths of Oxo- and Hydroacids in Aqueous Solution. Ozone. The Greenhouse Effect and Global Warming. 12. Group 1A: The Alkali Metals. Discovery and Isolation of the Elements. Fundamental Properties and the Network. Reduction Potentials and the Network. Peroxides and Superoxides. Reactions and Compounds of Practical Importance. Selected Topic in Depth: Metal-Ammonia Solutions. 13.Group 2A: The Alkaline Earth Metals. Discover and Isolation of the Elements. Fundamental Properties and the Network. Reactions and Compounds of Practical Importance. Selected Topic in Depth: The Commercial Uses of Calcium Compounds. 14.The Group 3A: Elements. Discovery and Isolation of the Elements. Fundamental Properties and the Network. Structural Aspects of Boron Chemistry. Aluminum, Gallium, Indium, and ThalliumReaction and Compounds of Practical Importance. Selected Topic in Depth: Electron-Deficient Compounds. 15. The Group 4A Elements. Discovery and Isolation of the Elements. Fundamental Properties and the Network. An Eighth Component of the Interconnected Network: pi-dpi Bonding Involving Elements of the Second and Third Periods. Reactions and Compounds of Practical Importance. Silicates, Silica, and Aluminosilicates. Selected Topics in Depth: Semiconductors and Glass. 16. Group 5A: The Pnicogens. Discovery and Isolation of the Elements. Fundamental Properties and the Network. A Survey of Nitrogen Oxidation States. Reactions and Compounds of Practical Importance. Selected Topic in Depth: Photochemical Smog. 17. Sulfur,