Order of Topics

From Chemistry & Chemical Reactivity, 11th Edition; John C. Kotz, Paul M. Treichel, John R. Townsend, and David R. Treichel.

11 - IMFs & Liquids

  • 11.1 - States of Matter and Intermolecular Forces
  • 11.2 - Interactions between Ions and Molecules with a Permanent Dipole
  • 11.3 - Interactions between Molecules with a Permanent Dipole
  • 11.4 - Intermolecular Forces Involving Nonpolar Molecules
  • 11.5 - A Summary of van der Waals Intermolecular Forces
  • 11.6 - Properties of Liquids

05 - Energy and Chemical Reactions

  • 5.3 - Heating Curves

12 - Solids

  • 12.1 - Crystal Lattices and Unit Cells
  • 12.2 - Structures and Formulas of Ionic Solids
  • 12.3 - Bonding in Ionic Compounds: Lattice Energy
  • 12.4 - Bonding in Metals and Semiconductors
  • 12.5 - Other Types of Solid Materials
  • 12.6 - Phase Changes

14 - Chemical Kinetics

  • 14.1 - Rates of Chemical Reactions
  • 14.2 - Reaction Conditions and Rate
  • 14.3 - Effect of Concentration on Reaction Rate
  • 14.4 - Concentration–Time Relationships: Integrated Rate Laws
  • 14.5 - A Microscopic View of Reaction Rates
  • 14.6 - Catalysts
  • 14.7 - Reaction Mechanisms

18 - Entropy and Free Energy

  • 18.1 - Spontaneity and Dispersal of Energy: Entropy
  • 18.2 - Entropy: A Microscopic Understanding
  • 18.3 - Entropy Measurement and Values
  • 18.4 - Entropy Changes and Spontaneity
  • 18.5 - Gibbs Free Energy

13 - Solutions

  • 13.1 - Units of Concentration
  • 13.2 - The Solution Process
  • 13.3 - Factors Affecting Solubility: Pressure and Temperature
  • 13.4 - Colligative Properties
  • 13.5 - Colloids

15 - Equilibrium

  • 15.1 - Chemical Equilibrium: A Review
  • 15.2 - The Equilibrium Constant and Reaction Quotient
  • 15.3 - Determining an Equilibrium Constant
  • 15.4 - Using Equilibrium Constants in Calculations
  • 15.5 - More about Balanced Equations and Equilibrium Constants
  • 15.6 - Disturbing a Chemical Equilibrium

16 - Acids & Bases

  • 16.1 - The Brønsted-Lowry Concept of Acids and Bases
  • 16.2 - Water and the pH Scale
  • 16.3 - Equilibrium Constants for Acids and Bases
  • 16.4 - Acid–Base Properties of Salts
  • 16.5 - Predicting the Direction of Acid–Base Reactions
  • 16.6 - Types of Acid–Base Reactions
  • 16.7 - Calculations with Equilibrium Constants
  • 16.8 - Polyprotic Acids and Bases
  • 16.9 - Molecular Structure, Bonding, and Acid–Base Behavior
  • 16.10 - The Lewis Concept of Acids and Bases (omit Coordination Complexes, Molecular Lewis Acids and Bases)

17 - Other Aqueous Equilibria

  • 17.1 - Buffers
  • 17.2 - Acid–Base Titrations
  • 17.3 - Solubility of Salts
  • 17.4 - Precipitation Reactions
  • 17.5 - Equilibria Involving Complex Ions

19 - Oxidation/Reduction Reactions

  • 19.1 - Oxidation–Reduction Reactions
  • 19.2 - Voltaic Cells
  • 19.4 - Standard Electrochemical Potentials
  • 19.5 - Electrochemical Cells Under Nonstandard Conditions
  • 19.6 - Electrochemistry and Thermodynamics
  • 19.7 - Electrolysis: Chemical Change Using Electrical Energy

20 - Nuclear Chemistry

  • 20.1 - Natural Radioactivity
  • 20.2 - Nuclear Reactions and Radioactive Decay (omit radioactive decay series)