Recorded on October 22, 2014.

Index of Topics:
00:17-Linear H3+
02:10-Linear FHF- by Inspection
05:42-Linear FHF-
22:37-Carbon Dioxide by Inspection
25:40-Relative AO Energies in MO Diagrams
26:04-Carbon Dioxide
40:12-Molecular Orbitals for Larger Molecules
40:57-Carbon Dioxide by Reducible Representations
46:35-Carbon Dioxide
46:43-Water

1. Symmetry in Nature
2. Symmetry and Point Groups
3. Representations and Character Tables
4. Character Tables and One Application of Symmetry
5. A Second Application of Symmetry
6. Simple MO Theory
7. Simple MO Theory II
8. Simple MO Theory III
9. Simple MO Theory IV
10. Projection Operator Method
11. The Crystalline Solid State
12. Crystal Structures
13. Ionic Structures
14. Semiconductors and Devices based on p-n Junctions
15. Models of Acid- Base Chemistry
16. Nature of the Adduct
17. Chemistry of the Main Group Elements: Hydrogen, Alkali, and Alkaline Earth Metals
18. .Chemistry of the Main Group Elements: Boron through Nitrogen Groups
19. Chemistry of the Main Group Elements: Carbon Group through Noble Gases
20. .Chemistry of the Main Group Elements: Chalcogens through Noble Gases
21. Coordination Chemistry I: Names, Coordination Geometries and Isomers
22. Coordination Chemistry I: Coordination Geometries
23. Coordination Chemistry II: Liquid Field Theory
24. Coordination Chemistry II: Liquid Field Theory
25. Coordination Chemistry II: LFT for Electron Counting
26. Coordination Chemistry III: Spectroscopy & Multi-Electron States
27. Coordination Chemistry III: Multi-Electron States
28. Coordination Chemistry III: Multi-Electron States -- Part 2
29. Inorganic Chemistry: Jahn-Teller Effect and Electron Counting

This course is an introduction to modern inorganic chemistry. Topics include principles of structure, bonding, and chemical reactivity with application to compounds of the main group and transition elements, including organometallic chemistry.

Inorganic Chemistry (Chem 107) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html
This video is part of a 29-lecture undergraduate-level course titled "Inorganic Chemistry" taught at UC Irvine by Professor Matthew D. Law.