The distinction between reversible and irreversible reactions, and between rate and extent of a reaction
Homogenous equilibria involving aqueous solutions or gases with reference to collision theory and representation by balanced chemical or thermochemical equations (including states) and by concentration-time graphs
Calculations involving equilibrium expressions and equilibrium constants (Kc only) for a closed homogeneous equilibrium system including dependence of value of equilibrium constant, and its units, on the equation used to represent the reaction and on the temperature
Le Châtelier’s principle: identification of factors that favour the yield of a chemical reaction, representation of equilibrium system changes using concentration-time graphs and applications, including competing equilibria involved in the occurrence and treatment of carbon monoxide poisoning resulting from incomplete combustion of fuels.
Chapter 6. Extent of chemical reactions, pages 159-205
Problem Solving Exercises
Exercise 6.2 Reversible and irreversible reactions, page 162, problems 1-5
Exercise 6.3 Homogeneous equilibria, pages 166-167, problems 1-6
Exercise 6.4 Calculations involving equilibrium systems, pages 176-177, problems 1-9
Exercise 6.5 Measuring the efficiency of a reaction process, page 180, problems 1-3
Exercise 6.6 Le Châtelier's principle, pages194-196, problems 1-11
Chapter6.7 Review, pages 196-205
Reversible Reactions: Bozeman Science
Equilibrium: Bozeman Science
The Equilibrium Constant: Bozeman Science
Equilibrium: Crash Course Chemistry
Equilibrium Calculations: Crash Course Chemistry
Le Châtelier's Principle: Bozeman Science
Le Chatelier's Principle Animation: This is a video of a Flash animation that is no longer available. It isn't as good as the real thing, but it does illustrate the principles.