General Chemistry

14.

Chemical Kinetics

14.1.

14.1.1.

Definition of Reaction Rate

14.1.2.

Measuring Reaction Rates

14.1.3.

14.1.4.

Instantaneous Rate

14.1.5.

14.1.6.

Rate and Stoichiometry

14.2.

Factors Affecting Reaction Rates

14.2.1.

Concentration Effects

14.2.2.

Temperature Effects

14.2.3.

Physical State and Surface Area

14.2.4.

14.3.

14.3.1.

Rate Law Expression

14.3.2.

14.3.3.

14.3.3.1.

14.3.3.2.

14.3.3.3.

14.3.3.4.

14.3.4.

Determining Rate Laws Experimentally

14.3.4.1.

Method of Initial Rates

14.3.4.2.

Graphical Methods

14.4.

Integrated Rate Laws

14.4.1.

First-Order Integrated Rate Law

14.4.2.

Second-Order Integrated Rate Law

14.4.3.

Zero-Order Integrated Rate Law

14.4.4.

14.4.4.1.

First-Order Half-Life

14.4.4.2.

Second-Order Half-Life

14.4.4.3.

Zero-Order Half-Life

14.5.

Temperature and Rate

14.5.1.

Collision Theory

14.5.2.

Activation Energy

14.5.3.

Transition State Theory

14.5.4.

Arrhenius Equation

14.5.4.1.

Temperature Dependence of Rate Constants

14.5.4.2.

Calculating Activation Energy

14.6.

Reaction Mechanisms

14.6.1.

Elementary Reactions

14.6.2.

Multistep Mechanisms

14.6.3.

Rate-Determining Step

14.6.4.

14.6.5.

Molecularity vs Order

14.6.6.

Steady-State Approximation

14.7.

14.7.1.

How Catalysts Work

14.7.2.

Homogeneous Catalysis

14.7.3.

Heterogeneous Catalysis

14.7.4.

14.7.4.1.

Enzyme Kinetics

14.7.4.2.

Michaelis-Menten Mechanism

14.7.5.

Industrial Catalysis

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15. Chemical Equilibrium