Inorganic Chemistry
by House, James E.Edition: 2nd
Format: Hardcover
Pub. Date: 2012-10-30
Publisher(s): Academic Pr
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Summary
This concise textbook meets several objectives. First, the topics included were selected in order to provide essential information in the major areas of inorganic chemistry (molecular structure, acid-base chemistry, coordination chemistry, ligand field theory, solid state chemistry, etc.). These topics form the basis for competency in inorganic chemistry at a level commensurate with the one semester course taught at most colleges and universities. The second objective has been to stress fundamental principles in the discussion of several topics. For example, the hard-soft interaction principle is employed in discussion of acid-base chemistry, stability of complexes, solubility, and predicting reaction products. Third, the presentation of topics is made with an effort to be clear and concise so that the book is portable and user friendly. This book presents in convenient form a readable account of the essentials of inorganic chemistry that can serve as both as a textbook for a one semester course upper level course and as a guide for self study. Figures, tables, and end-of-chapter problems round out this pedagogically rich, thematically balanced text for advanced undergraduate and graduate level students. . Concise coverage maximizes student understanding and minimizes the inclusion of details students are unlikely to use. . Discussion of elements begins with survey chapters focused on the main groups, while later chapters cover the elements in greater detail. . Each chapter opens with narrative introductions and includes figures, tables, and end-of-chapter problem sets.
Table of Contents
| Preface to the Second Edition | p. xi |
| Preface to the First Edition | p. xii |
| Structure of Atoms and Molecules | p. 1 |
| Light, Electrons, and Nuclei | p. 3 |
| Some Early Experiments in Atomic Physics | p. 3 |
| The Nature of Light | p. 7 |
| The Bohr Model | p. 11 |
| Particle-Wave Duality | p. 14 |
| Electronic Properties of Atoms | p. 16 |
| Nuclear Binding Energy | p. 21 |
| Nuclear Stability | p. 23 |
| Types of Nuclear Decay | p. 25 |
| Predicting Decay Modes | p. 28 |
| Basic Quantum Mechanics and Atomic Structure | p. 33 |
| The Postulates | p. 33 |
| The Hydrogen Atom | p. 40 |
| The Helium Atom | p. 45 |
| Slater Wave Functions | p. 47 |
| Electron Configurations | p. 49 |
| Spectroscopic States | p. 54 |
| Covalent Bonding in Diatomic Molecules | p. 61 |
| The Basic Ideas of Molecular Orbital Methods | p. 61 |
| The H2+ and H2 Molecules | p. 69 |
| Diatomic Molecules of Second-Row Elements | p. 71 |
| Photoelectron Spectroscopy | p. 77 |
| Heteronuclear Diatomic Molecules | p. 79 |
| Electronegativity | p. 82 |
| Spectroscopic States for Molecules | p. 85 |
| A Survey of Inorganic Structures and Bonding | p. 89 |
| Structures of Molecules Having Single Bonds | p. 89 |
| Resonance and Formal Charge | p. 99 |
| Complex Structures: A Preview of Coming Attractions | p. 111 |
| Electron-Deficient Molecules | p. 119 |
| Structures Having Unsaturated Rings | p. 121 |
| Bond Energies | p. 123 |
| Symmetry and Molecular Orbitals | p. 129 |
| Symmetry Elements | p. 129 |
| Orbital Symmetry | p. 137 |
| A Brief Look at Group Theory | p. 139 |
| Construction of Molecular Orbitals | p. 144 |
| Orbitals and Angles | p. 150 |
| Simple Calculations Using the Hückel Method | p. 152 |
| Condensed Phases | p. 167 |
| Dipole Moments and Intermolecular Interactions | p. 169 |
| Dipole Moments | p. 169 |
| Dipole-Dipole Forces | p. 174 |
| Dipole-Induced Dipole Forces | p. 176 |
| London (Dispersion) Forces | p. 177 |
| The van der Waals Equation | p. 181 |
| Hydrogen Bonding | p. 183 |
| Cohesion Energy and Solubility Parameters | p. 192 |
| Solvatochromism | p. 196 |
| Ionic Bonding and Structures of Solids | p. 201 |
| Energetics of Crystal Formation | p. 201 |
| Madelung Constants | p. 205 |
| The Kapustinskii Equation | p. 209 |
| Ionic Sizes and Crystal Environments | p. 210 |
| Crystal Structures | p. 213 |
| Solubility of Ionic Compounds | p. 219 |
| Proton and Electron Affinities | p. 224 |
| Structures of Metals | p. 227 |
| Defects in Crystals | p. 230 |
| Phase Transitions in Solids | p. 233 |
| Heat Capacity | p. 234 |
| Hardness of Solids | p. 237 |
| Dynamic Processes in Inorganic Solids | p. 243 |
| Characteristics of Solid-State Reactions | p. 243 |
| Kinetic Models for Reactions in Solids | p. 245 |
| Thermal Methods of Analysis | p. 253 |
| Effects of Pressure | p. 254 |
| Reactions in Some Solid Inorganic Compounds | p. 256 |
| Phase Transitions | p. 258 |
| Reactions at Interfaces | p. 262 |
| Diffusion in Solids | p. 263 |
| Sintering | p. 265 |
| Drift and Conductivity | p. 267 |
| Acids, Bases, and Solvents | p. 271 |
| Acid-Base Chemistry | p. 273 |
| Arrhenius Theory | p. 273 |
| Brønsted-Lowry Theory | p. 276 |
| Factors Affecting the Strength of Acids and Bases | p. 279 |
| Acid-Base Character of Oxides | p. 284 |
| Proton Affinities | p. 286 |
| Lewis Theory | p. 288 |
| Catalytic Behavior of Acids and Bases | p. 292 |
| The Hard-Soft Interaction Principle (HSIP) | p. 296 |
| Electronic Polarizabilities | p. 305 |
| The Drago Four-Parameter Equation | p. 306 |
| Chemistry in Nonaqueous Solvents | p. 313 |
| Some Common Nonaqueous Solvents | p. 313 |
| The Solvent Concept | p. 314 |
| Amphoteric Behavior | p. 316 |
| The Coordination Model | p. 317 |
| Chemistry in Liquid Ammonia | p. 318 |
| Liquid Hydrogen Fluoride | p. 324 |
| Liquid Sulfur Dioxide | p. 326 |
| Superacids | p. 330 |
| Chemistry of the Elements | p. 335 |
| Chemistry of Metallic Elements | p. 337 |
| The Metallic Elements | p. 337 |
| Band Theory | p. 338 |
| Groups IA and IIA Metals | p. 341 |
| Zintl Phases | p. 349 |
| Aluminum and Beryllium | p. 351 |
| The First-Row Transition Metals | p. 353 |
| Second- and Third-Row Transition Metals | p. 355 |
| Alloys | p. 357 |
| Chemistry of Transition Metals | p. 360 |
| The Lanthanides | p. 367 |
| Organometallic Compounds of the Main Group Elements | p. 375 |
| Preparation of Organometallic Compounds | p. 376 |
| Organometallic Compounds of Group IA Metals | p. 378 |
| Organometallic Compounds of Group IIA Metals | p. 380 |
| Organometallic Compounds of Group IIIA Metals | p. 383 |
| Organometallic Compounds of Group IVA Metals | p. 387 |
| Organometallic Compounds of Group VA Elements | p. 388 |
| Organometallic Compounds of Zn, Cd, and Hg | p. 389 |
| Chemistry of Nonmetallic Elements I. Hydrogen, Boron, Oxygen, and Carbon | p. 393 |
| Hydrogen | p. 393 |
| Boron | p. 400 |
| Oxygen | p. 411 |
| Carbon | p. 420 |
| Chemistry of Nonmetallic Elements II Groups IVA and VA | p. 439 |
| The Group IVA Elements | p. 439 |
| Nitrogen | p. 456 |
| Phosphorus, Arsenic, Antimony, and Bismuth | p. 471 |
| Chemistry of Nonmetallic Elements EL Groups VIA-VTIIA | p. 499 |
| Sulfur, Selenium, and Tellurium | p. 499 |
| The Halogens | p. 520 |
| The Noble Gases | p. 538 |
| Chemistry of Coordination Compounds | p. 551 |
| Introduction to Coordination Chemistry | p. 553 |
| Structures of Coordination Compounds | p. 553 |
| Metal-Ligand Bonds | p. 557 |
| Naming Coordination Compounds | p. 559 |
| Isomerism | p. 561 |
| A Simple Valence Bond Description of Coordinate Bonds | p. 568 |
| Magnetism | p. 572 |
| A Survey of Complexes of First-Row Metals | p. 574 |
| Complexes of Second- and Third-Row Metals | p. 576 |
| The 18-Electron Rule | p. 576 |
| Back Donation | p. 580 |
| Complexes of Dinitrogen, Dioxygen, and Dihydrogen | p. 585 |
| Ligand Fields and Molecular Orbitals | p. 591 |
| Splitting of d Orbital Energies in Octahedral Fields | p. 591 |
| Splitting of d Orbital Energies in Fields of Other Symmetry | p. 594 |
| Factors Affecting ¿ | p. 598 |
| Consequences of Crystal Field Splitting | p. 600 |
| Jahn-Teller Distortion | p. 603 |
| Spectral Bands | p. 604 |
| Molecular Orbitals in Complexes | p. 606 |
| Interpretation of Spectra | p. 617 |
| Splitting of Spectroscopic States | p. 617 |
| Orgel Diagrams | p. 621 |
| Racah Parameters and Quantitative Methods | p. 624 |
| The Nephelauxetic Effect | p. 627 |
| Tanabe-Sugano Diagrams | p. 629 |
| The Lever Method | p. 633 |
| Jørgensen's Method | p. 636 |
| Charge Transfer Absorption | p. 637 |
| Solvatochromism | p. 639 |
| Composition and Stability of Complexes | p. 643 |
| Composition of Complexes in Solution | p. 643 |
| Job's Method of Continuous Variations | p. 645 |
| Equilibria Involving Complexes | p. 647 |
| Distribution Diagrams | p. 652 |
| Factors Affecting the Stability of Complexes | p. 655 |
| Synthesis and Reactions of Coordination Compounds | p. 665 |
| Synthesis of Coordination Compounds | p. 665 |
| Substitution Reactions in Octahedral Complexes | p. 671 |
| Ligand Field Effects | p. 678 |
| Acid-Catalyzed Reactions of Complexes | p. 681 |
| Base-Catalyzed Reactions of Complexes | p. 682 |
| The Compensation Effect | p. 684 |
| Linkage Isomerization | p. 685 |
| Substitution in Square Planar Complexes | p. 687 |
| The Trans Effect | p. 690 |
| Electron Transfer Reactions | p. 694 |
| Reactions in Solid Coordination Compounds | p. 697 |
| Complexes Containing Metal-Carbon and Metal-Metal Bonds | p. 707 |
| Binary Metal Carbonyls | p. 707 |
| Structures of Metal Carbonyls | p. 711 |
| Bonding of Carbon Monoxide to Metals | p. 712 |
| Preparation of Metal Carbonyls | p. 715 |
| Reactions of Metal Carbonyls | p. 716 |
| Structure and Bonding in Metal-Alkene Complexes | p. 721 |
| Preparation of Metal-Alkene Complexes | p. 727 |
| Chemistry of Cyclopentadienyl and Related Complexes | p. 728 |
| Bonding in Ferrocene | p. 732 |
| Reactions of Ferrocene and other Metallocenes | p. 735 |
| Complexes of Benzene and Related Aromatics | p. 738 |
| Compounds Containing Metal-Metal Bonds | p. 741 |
| Coordination Compounds in Catalysis | p. 747 |
| Elementary Steps in Catalytic Processes | p. 748 |
| Homogeneous Catalysis | p. 761 |
| Bioinorganic Chemistry | p. 773 |
| What Metals Do in Some Living Systems | p. 773 |
| Cytotoxicity of Some Metal Compounds | p. 784 |
| Antimalarial Metallodrugs | p. 792 |
| Ionization Energies | p. 797 |
| Character Tables for Selected Point Groups | p. 801 |
| Index | p. 807 |
| Table of Contents provided by Ingram. All Rights Reserved. |
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