GENERAL CHEMISTRY II
Dr. Michael Blaber


Lecture Notes Menu


Aqueous Reactions

Properties of Solutes
Acids, Bases and Salts
Ionic Equations
Metathesis Reactions
Intro to Redox Reactions


Intermolecular Forces (Review)

Intermolecular Forces


Properties of Solutions

The Solution Process
Expressing Concentration
Saturated Solutions
Solubility
Colligative Properties
Distillation
Colloids


Kinetics

Reaction Rates
Rate and Concentration
Concentration and Time
Temperature and Rate
Reaction Mechanisms
Catalysts


Chemical Equilibrium

Equilibrium
Equilibrium Constant
Heterogenous Equilibrium
Calculating Equilibrium Constants
Applications of Equilibrium Constants
Le Chatelier's Principle


Acid-Base Equilibria

Bronstead-Lowry Acids and Bases
Dissociation of Water
The pH Scale
Weak Acids
Weak Bases
Ka and Kb Relationship
Salt Solutions
Acid/Base Structure
Lewis Acids and Bases


Additional Aspects of Aqueous Equilibria

The Common-Ion Effect
Buffered Solutions
Acid-Base Titrations
Solubility Equilibria
Factors that Affect Solubility
Precipitation and Separation of Ions
Qualitative Analysis of Metal Ions


Chemical Thermodynamics

Spontaneous Processes, Entropy, and the Second Law of Thermodynamics
Molecular Interpretation of Entropy
Calculation of Entropy Changes
Gibbs Free Energy
Free Energy, Temperature and the Equilibrium Constant


Electrochemistry

Oxidation-Reduction Reactions
Balancing Oxidation-Reduction Reactions
Voltaic Cells
Cell EMF
Spontaneity of Redox Reactions
Effect of Concentration on Cell EMF
Commercial Voltaic Cells
Electrolysis
Quantitative Aspects of Electrolysis
Corrosion


Nucleosynthesis

Where do the elements come from?


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2000 Dr. Michael Blaber