Table of Contents
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Table of Contents
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Licensing
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1: Molecular Geometry and Bonding Theories
- 1.1: Molecular Geometry
- 1.2: The VSEPR Model
- 1.3: Molecular Shape and Molecular Polarity
- 1.4: Covalent Bonding and Orbital Overlap
- 1.5: Hybrid Orbitals
- 1.6: Multiple Bonds
- 1.7: Molecular Orbitals
- 1.8: Second-Row Diatomic Molecules
- 1.E: Exercises
- 1.S: Molecular Geometry and Bonding Theories (Summary)
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2: Thermochemistry
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3: Chemical Kinetics
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4: Chemical Equilibrium
- 4.1: The Concept of Equilibrium
- 4.2: The Equilibrium Constant
- 4.3: Interpreting and Working with Equilibrium Constants
- 4.4: Heterogeneous Equilibria
- 4.5: Calculating Equilibrium Constants
- 4.6: Applications of Equilibrium Constants
- 4.7: Le Chatelier's Principle
- 4.E: Exercises
- 4.S: Chemical Equilibrium (Summary)
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5: Acid–Base Equilibria
- 5.1: Acids and Bases - A Brief Review
- 5.2: Brønsted–Lowry Acids and Bases
- 5.3: The Autoionization of Water
- 5.4: The pH Scale
- 5.5: Strong Acids and Bases
- 5.6: Weak Acids
- 5.7: Weak Bases
- 5.8: Relationship Between Ka and Kb
- 5.9: Acid-Base Properties of Salt Solutions
- 5.10: Acid-Base Behavior and Chemical Structure
- 5.11: Lewis Acids and Bases
- 5.E: Acid–Base Equilibria (Exercises)
- 5.S: Acid–Base Equilibria (Summary)
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6: Electrochemistry
- 6.1: Oxidation States and Redox Reactions
- 6.2: Balanced Oxidation-Reduction Equations
- 6.3: Voltaic Cells
- 6.4: Cell Potential Under Standard Conditions
- 6.5: Gibbs Energy and Redox Reactions
- 6.6: Cell Potential Under Nonstandard Conditions
- 6.7: Batteries and Fuel Cells
- 6.8: Corrosion
- 6.9: Electrolysis
- 6.E: Electrochemistry (Exercises)
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Index
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Glossary
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Detailed Licensing
