Lesson 1a:  Cis and Trans Isomerization in Cyclic Alkenes: A Topic for Discovery Using the Results of Molecular Modeling

Lesson 1b:  Cis and Trans Isomers of Cycloalkenes

Lesson 2:  Computer-Based Conformational Analysis of Acetylcholine and Muscarine Combined with an Overview of the Receptor–Ligand Interaction

Lesson 3:  Usnic Acid and the Intramolecular Hydrogen Bond. A Computational Experiment for the Organic Laboratory

Lesson 4:  A Comparison of the ab Initio Calculated and Experimental Conformational Energies of Alkylcyclohexanes

Lesson 5:  Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory

Lesson 6:  Naphthalene and Azulene I: Semimicro Bomb Calorimetry and Quantum Mechanical Calculations

Lesson 7:  Computational Studies of Chemical Reactions: The HNC–HCN and CH3NC–CH3CN Isomerizations

Lesson 8:  Computational Studies of Chemical Reactions: Reaction of Morpholine with t-Butyl Acetoacetate: A Study in Kinetic vs Thermodynamic Control, Product Identification, and Molecular Modeling

Lesson 9:  The Michael Reaction

Lesson 10:  Integration of Computational and Preparative Techniques To Demonstrate Physical Organic Concepts in Synthetic Organic Chemistry: An Example Using Diels–Alder Reactions

Lesson 11:  Computational Investigations for Undergraduate Organic Chemistry: Modeling Markovnikov and anti-Markovnikov Reactions for the Formation of Alkyl Halides and Alcohols

Lesson 12:  Polar Addition to C=C Group: Why Is Anti-Markovnikov Hydroboration–Oxidation of Alkenes Not "Anti-"?

More Lessons from Glactone's Molecular Modeling Exercises

-- SiripornJu - 08 Mar 2007