Recorded on February 11, 2013. Slides: 00:07- 13: Electronic Spectroscopy 00:28- Term Symbols for Linear Molecules 04:29- Alternative Empirical Notation 05:25- Electronic States: Example 06:48- Electronic Spectroscopy- Electrons are Moved Between Orbitals 08:46- Electronic Spectroscopy- Example of Oxygen 09:53- Electronic Spectroscopy: Transitions Occur Between Rovibrational States 14:11- Franck-Condon Principle 16:00- Franck-Condon Principle, Slide 2 16:39- Franck-Condon Principle, Slide 3 17:21- Franck-Condon Principle, Slide 4 20:02- Franck-Condon Principle, Slide 5 21:20- Franck-Condon Factors 24:29- Vanishing Integrals Redux 28:14- Vanishing Integrals Redux, Slide 2 34:02- Transition Dipole 36:32- Weakly Allowed Transitions 37:31- Weakly Allowed Transitions- Energy Level Diagram 38:22- I2 Energy Levels 41:28- I2 Spectrum 42:46- I2 Spectrum- Analysis

1. Symmetry and Spectroscopy I
2. Symmetry and Spectroscopy II
3. Transformation Matrices
4. Group Theory Applications
5. Rotational Spectroscopy I
6. Rotational Spectroscopy II
7. Rotational Spectroscopy III
8. Molecular Motion
9. Vibrations in Molecules
10. Anharmonic Potential.
11. First Midterm Exam Review.
12. Electronic Spectroscopy
13. Electronic Spectroscopy II
14. Electronic Spectroscopy III
15. Electronic Spectroscopy IV
16. Fourier Transforms & Introduction to Nuclear Magnetic Resonance (NMR)
17. Nuclear Magnetic Resonance II
18. Eigenstates & Eigenvalues
19. Spin Rotations T1 & T2
20. NMR Applications/ Review
21. Second Midterm Examination Review
22. The Boltzmann Distribution
23. Partition Functions I
24. Partition Functions II
25. Partition Functions
26. Final Exam Review

Principles of quantum mechanics with application to the elements of atomic structure and energy levels, diatomic molecular spectroscopy and structure determination, and chemical bonding in simple molecules. Chemistry Dept. | Physical Sciences Sch. | University of California, Irvine