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Course
| Subject: | Chemistry |
| Views: | 52,153 |
Instructor
Name
David Van Vranken
Lecture Description
Lec 17. Organic Chemistry -- NMR Spectroscopy
Recorded February 20, 2013.
Index of Topics:
00:09- Mapping the human brain
01:34- Can we see Chemistry Inside the Brain?
CHAPTER 14- Nuclear Magnetic Resonance Spectroscopy
05:52- 14.1: Which elements have magnetic resonance properties?
12:47- 14.1A: The NMR Spectrometer- A Superconducting Magnet
16:38- 14.1A: Energetic Differences Between Two Nuclear Spin States
19:39- The Sound of an NMR Spectrometer
21:03- 14.1: Why we perform H NMR and C NMR separately
23:10- 14.1A: The NMR Spectrometer- A Superconducting Magnet (revisited)
24:16- 14.1B: Strange Terms Because Every NMR Magnet is Different
31:32- 14.1A: C NMR is simpler than H NMR so use it first
34:56- 14.2: How many signals should I expect in the C spectrum?
43:40- 14.2: How many signals should I expect in the C spectrum, Slide 2
46:05- 14.2: Use Symmetry to Predict the Number of C Signals
Course Index
- Review of Chem 51A
- Alcohols, Ethers, and Epoxides - Part 1
- Alcohols, Ethers, and Epoxides - Part 2
- Alcohols, Ethers, and Epoxides - Part 3
- Alcohols, Ethers, and Epoxides Part 4.
- Alkenes, Part 1.
- Alkenes, Part 2.
- Alkenes, Part 3.
- Alkynes, Part 1.
- Alkynes, Part 2.
- Alkynes, Part 3.
- Alkynes, Part 4.
- Reduction and Oxidation, Part 1.
- Reduction and Oxidation, Part 2.
- Reduction and Oxidation, Part 3.
- Infrared Spectroscopy + Ch. 14.
- NMR Spectroscopy.
- NMR Spectroscopy, Part 2.
- NMR Spectroscopy, Part 3.
- Radicals.
- Conjugation, Resonance, Diels-Alder Reactions, Part 1.
- Conjugation, Resonance, Diels-Alder Reactions, Part 2.
- Aromaticity.
- Electrophilic Aromatic Substitution.
- Electrophilic Aromatic Substitution Part 2.
- Electrophilic Aromatic Substitution, Part 3.
Course Description
This is the second quarter of the organic chemistry series. Topics covered include: Fundamental concepts relating to carbon compounds with emphasis on structural theory and the nature of chemical bonding, stereochemistry, reaction mechanisms, and spectroscopic, physical, and chemical properties of the principal classes of carbon compounds.
