Progress AP Chemistry Complete & Continue Next Lesson Learn More Unit 1: Atomic Structure and Properties 7 Lessons 1.1 Stoichiometry - Limiting Excess Regents 1.2 Electron Configurations 1.3 Periodic Trends 1.4 Bonding 1.5 Lewis Structures 1.6 Formal Charges Octet Exceptions Unit 1 Summary Unit 2: Molecular and Ionic Compound Structures 7 Lessons 2.1 Molecular Geometry 2.2 Hybridization 2.3 Polarity 2.4 Gas Laws 1 2.5 Gas Laws 2 2.6 Gas Laws 3 Unit 2 Summary Unit 3: Intermolecular Forces and Properties 6 Lessons 3.1 Intermolecular Forces 3.2 Liquid Properties 3.3 Solids 3.4 Electromagnetic Radiation & Spectroscopy 3.5 Spectrophotometry Unit 3 Summary Unit 4: Chemical Reactions 4 Lessons 4.1 Reaction Types Net ionic Equations 4.2 Hydrates Solutions 4.3 Redox Unit 4 Summary Unit 5: Kinetics 5 Lessons 5.1 Rate Factors 5.2 Differential Rate Law 5.3 Integrated Rate Law 5.4 Catalysis Reaction Mechanisms Unit 5 Summary Unit 6: Thermodynamics 5 Lessons 6.1 Heat Energy 6.2 Enthalpy 6.3 Entropy 6.4 Free Energy Unit 6 Summary Unit 7: Equilibrium 6 Lessons 7.1 Chemical Equilibrium 7.2 Calculating Equilibrium Values 7.3 Reaction Quotient (Q) 7.4 External Factors Affecting Equilibrium 7.5 Solubility Equilibrium Unit 7 Summary Unit 8: Acids and Bases 6 Lessons 8.1 Acid and Base Definitions, Conjugate Pairs and Strength 8.2 pH 8.3 Salt Hydrolysis 8.4 Buffers 8.5 Titrations Unit 8 Summary Unit 9: Applications of Thermodynamics 5 Lessons 9.1 Redox Reactions 9.2 Galvanic Cells 9.3 Cell Potential Work and Free Energy 9.4 Electrolytic Cells Unit 9 Summary AP Chemistry Complete & Continue Next Lesson Learn More Unit 9: Applications of Thermodynamics 9.3 Cell Potential Work and Free Energy
IN THIS LESSON Relate standard cell potentials to Gibbs free energy and calculate cell work using the Nernst equation. Download PDF Additional Resources
