In this video lecture, Prof. Prof. Catherine Drennan and Dr. Elizabeth Vogel Taylor teach how to determine Hybridization in Complex Molecules, as well as Thermochemistry and Bond Energies/Bond Enthalpies.

1. The Importance of Chemical Principles
2. Discovery of the Electron and the Nucleus
3. Wave-particles Duality of Light
4. Wave-particle Duality of Matter
5. Hydrogen Atom Energy Levels
6. Hydrogen Atom Wavefunctions (Orbitals)
7. P-orbitals
8. Multielectron Atoms and Electron Configurations
9. Periodic Trends
10. Periodic Trends (Cont.)
11. Lewis Structures
12. Ionic Bonds
13. VSEPR Theory
14. Molecular Orbital Theory
15. Valence Bond Theory
16. Bond Energies & Bond Enthalpies
17. Entropy and Disorder
18. Free Energy and Control of Spontaneity
19. Chemical Equilibrium
20. Le Chatelier's Principle
21. Acid-base Equilibrium
22. Chemical and Biological Buffers
23. Acid-base Titrations
24. Balancing Oxidation & Reduction Equations
25. Electrochemical Cells
26. Chemical and Biological Oxidation
27. Transition Metals
28. Crystal Field Theory
29. Metals in Biology
30. Magnetism and the Spectrochemical Theory
31. Rate Laws
32. Nuclear Chemistry and Elementary Reactions
33. Reaction Mechanism
34. Temperature and Kinetics
35. Enzyme Catalysis
36. Biochemistry

In this course, Prof. Catherine Drennan and Dr. Elizabeth Vogel Taylor give 36 video lectures on the Principles of Chemical Science. This course provides an introduction to the chemistry of biological, inorganic, and organic molecules. The emphasis is on basic principles of atomic and molecular electronic structure, thermodynamics, acid-base and redox equilibria, chemical kinetics, and catalysis.