I. Structure of Matter
    •  Sub-atomic Particles
    •  Atomic Theory
    •  Quantum Theory
    •  Electron Configuration
    •  Orbital Types
    •  Lewis-Dot Diagrams
    •  Bond Types
    •  Bond Order and Energy
    •  Periodic Trends of Elements
    •  VSEPR and Molecular Geometry
    •  Decay processes and Half Life
    •  Nuclear Reactions
    •  Nuclear Fission and Fusion
    •  Binding Energy

II. State of Matter
    •  Boyle‘s, Charles’ and Lussac‘s Gas Laws
    •  Idea Gas Law
    •  Inter-molecular Forces

III. Chemical Reactions and Stoichiometry 
    •  Naming Chemical Compounds
    •  Writing Molecular Formulas
    •  Balancing Equations by Inspection
    •  Percent Composition
    •  Empirical Formulae and Molecular Formulas
    •  Moles and Molar Mass 
    •  Calculations from Balanced Equations

IV. Acids and Bases and Chemical Equilibria
    •  Concentration Calculations
    •  Solution Properties
    •  Acid and Base Definition
    •  pH and Acid/BaseStrength
    •  Bronsted-Lowry Reactions
    •  Solubility Product Constant Ksp 

V. Chemical Kinetics

    •  Kinetic Molecular Theory of Gases

    •  Dalton’s Law

    •  Boyle‘s, Charles and Ideal Gas Laws

    •  Phase Changes

    •  Boiling Point and Vapor Pressure

    •  Rate Laws and Half Life

    •  Activation Energy

VI. Thermodynamics and Thermochemistry

• Laws of Thermodynamics
• Hess’Law
• Spontaneity
• Enthalpies and Entropies 
• Heat Transfer

VII. Redox and Electrochemistry

    •  Redox Reactions

    •  Balancing Redox Reactions

    •  Electrolysis and Non-spontaneous Reactions

    •  Electrode Potentials

    •  Ecell, DG, and Keq

    •  Ecell vs. T-Nernst Equation

    •  Batteries and Chemical Reactions

    •  Corrosion: Unwanted Voltaic Cells

VIII. Organic Chemistry and Environmental Chemistry

    •  Classifying Organic Compounds

    •  Reaction of Organic Compounds

IX. Laboratory

    •  Lab Techniques

    •   Data and Error Analysis