UCI Chem 131B Molecular Structure & Statistical Mechanics (Winter 2013)
Lec 18. Molecular Structure & Statistical Mechanics -- Eigenstates & Eigenvalues.
View the complete course: ../courses/chem_131b_molecular_structure_and_elementary_statistical_mechanics.html
Instructor: Rachel Martin, Ph.D.
License: Creative Commons BY-NC-SA
Terms of Use: ../info.
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Description: 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.
Recorded on February 22, 2013.
Index of Topics:
00:30 - Eigenstates and Eigenvalues
01:19 - Matrix Representations
05:21 - Zeeman Basis
07:57 - Eigenstates and Eigenvalues, Slide 2
11:31 - Raising and Lowering Operators
15:09 - Eigenstates and Eigenvalues, Slide 3
17:01 - Superpositions
21:16 - Spin Operators and Eigenstates
22:20 - Rotation Operators
23:46 - Pulsed NMR
29:05 - NMR Probes
31:09 - Nutation Curves (Solenoid)
35:57 - RF Homogeneity
36:41 - Spin-Lattice Relaxation (T1)
41:09 - What Causes Longitudinal Relaxation?
42:02 - What Causes Longitudinal Relaxation, Slide 2
44:10 - Inversion Recovery (T1)
47:11 - Relaxation along the Z-Axis
Required attribution: Martin, Rachel. Molecular Structure & Statistical Mechanics 131B (UCI OpenCourseWare: University of California, Irvine), ../courses/chem_131b_molecular_structure_and_elementary_statistical_mechanics.html. [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License.
