Chapter 1 Spectroscopy & Lambert-Beer's Law
  1.1 Introduction
  1.2 Ultraviolet and Visible Absorption Spectroscopy
  1.3 Law of Absorption
  1.4 Instruments
  1.5 Application of UV-Vis Absorption Spectroscopy
Chapter 2 Thermochemistry: Energy Flow and Chemical Change
  2.1 Forms of Energy and Their Interconversion
  2.2 Enthalpy: Changes at Constant Pressure
  2.3 Calorimetry: Measuring the Heat of a Chemical or Physical Change
  2.4 Stoichiometry of Thermochemical Equations
  2.5 Hess's Law: Finding ΔH of Any Reaction
  2.6 Standard Enthalpies of Reaction (ΔH°rxn)
Chapter 3 Electron Configuration and Chemical Periodicity
  3.1 Characteristics of Many-Electron Atoms
  3.2 The Quantum-Mechanical Model and the Periodic Table
  3.3 Trends in Three Atomic Properties
  3.4 Atomic Properties and Chemical Reactivity
Chapter 4 Models of Chemical Bonding
  4.1 Atomic Properties and Chemical Bonds
  4.2 The Ionic Bonding Model
  4.3 The Covalent Bonding Model
  4.4 Bond Energy and Chemical Change
  4.5 Between the Extremes: Electronegativity and Bond Polarity
  4.6 An Introduction to Metallic Bonding
Chapter 5 Acid-Base Equilibrium
  5.1 Acids and Bases in Water
  5.2 Autoionization of Water and the pH Scale
  5.3 Proton Transfer and the Br?nsted-Lowry Acid-Base Definition
  5.4 Solving Problems Involving Weak-Acid Equilibria
  5.5 Molecular Properties and Acid Strength
  5.6 Weak Bases and Their Relation to Weak Acids
  5.7 Acid-Base Properties of Salt Solutions
  5.8 Generalizing the Br?nsted-Lowry Concept: The Leveling Effect
  5.9 Electron-Pair Donation and the Lewis Acid-Base Definition
Chapter 6 Ionic Equilibrium in Aqueous Systems
  6.1 Equilibria of Acid-Base Buffers
  6.2 Acid-Base Titration Curves
  6.3 Equilibria of Slightly Soluble Ionic Compounds
  6.4 Equilibria Involving Complex Ions
Chapter 7 Organic Chemistry
  7.1 The Special Nature of Carbon and the Characteristics of Organic Molecules
  7.2 The Structures and Classes of Hydrocarbons
  7.3 Some Important Classes of Organic Reactions
  7.4 Properties and Reactivities of Common Functional Groups
Chapter 8 Kinetics-Rate and Mechanisms of Chemical Reactions
  8.1 Focusing on Reaction Rate
  8.2 Expressing the Reaction Rate
  8.3 The Rate Law and Its Components
  8.4 Integrated Rate Laws: Concentration Changes over Time
  8.5 Theories of Chemical Kinetics
  8.6 Reaction Mechanisms: The Steps from Reactant to Product
  8.7 Catalysis: Speeding Up a Reaction
Chapter 9 Electrochemistry-Chemical Change and Electrical Work
  9.1 Redox Reactions and Electrochemical Cells
  9.2 Voltaic Cells: Using Spontaneous Reactions to Generate Electrical Energy
  9.3 Cell Potential: Output of a Voltaic Cell
  9.4 Free Energy and Electrical Work
  9.5 Electrochemical Processes in Batteries
  9.6 Corrosion: An Environmental Voltaic Cell
  9.7 Electrolytic Cells: Using Electrical Energy to Drive Nonspontaneous Reactions
Appendix
References