12: Chemical Equilibrium

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12.1: Before Equilibrium - Let's Discuss Rate of Reactions and Collisions
The rate, or speed, at which a reaction occurs depends on the frequency of successful collisions. Remember, a successful collision occurs when two reactants collide with enough energy and with the right orientation. That means if there is an increase in the number of collisions, an increase in the number of particles that have enough energy to react, and/or an increase in the number of particles with the correct orientation, the rate of reaction will increase.
- 12.1.1: Effects of Temperature, Concentration, and Catalysts on Reaction Rates
12.2: Dynamic Equilibrium
Virtually all chemical reactions are reversible to some extent. That is, an opposing reaction occurs in which the products react, to a greater or lesser degree, to re-form the reactants. Eventually, the forward and reverse reaction rates become the same, and the system reaches chemical equilibrium, the point at which the composition of the system no longer changes with time.
12.3: The Equilibrium Constant Expression
Because an equilibrium state is achieved when the forward reaction rate equals the reverse reaction rate, under a given set of conditions there must be a relationship between the composition of the system at equilibrium and the kinetics of a reaction (represented by rate constants).
12.4: Le Chatelier's Principle
The description of how a system responds to a stress to equilibrium has become known as Le Châtelier's principle: When a chemical system that is at equilibrium is disturbed by a stress, the system will respond in order to relieve the stress. Stresses to a chemical system involve changes in the concentrations of reactants or products, changes in the temperature of the system, or changes in the pressure of the system.
12.5: Some Special Types of Equilibria
12.E: Practice Exercises - Chemical Equilibrium
These are exercises and select solutions to accompany Chapter 13.

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