1. |
General consideration about radiation and spectrum. |
Consider how you know about unknown compound by using characteristics of radiation. Introduction to Organic Spectroscopy, pp1-12
|
200minutes |
2. |
Ultraviolet-visible spectroscopy, electronic transition and its theory. |
Introduction to Organic Spectroscopy, pp13-20 |
200minutes |
3. |
Ultraviolet-visible spectroscopy, Quantitative analysis with absorption spectroscopy. |
Introduction to Organic Spectroscopy, pp13-20 |
200minutes |
4. |
Ultraviolet-visible spectroscopy, Molecular shape and UV-bis. spectrum. |
Introduction to Organic Spectroscopy, pp20-21 |
200minutes |
5. |
Infrared spectroscopy, Molecule vibration and vibration spectrum. |
Introduction to Organic Spectroscopy, pp22-27 |
200minutes |
6. |
Infrared spectroscopy, Case studies. Ultraviolet-visible, Infrared spectroscopy, Exercises.
|
Introduction to Organic Spectroscopy, pp27-31 |
200minutes |
7. |
Examination 1, Answers and descriptions |
Ultraviolet-visible, Infrared spectroscopy |
200minutes |
8. |
Nuclear magnetic resonance spectroscopy, the basics |
Introduction to Organic Spectroscopy, pp33-36 |
200minutes |
9. |
Nuclear magnetic resonance spectroscopy, Chemical shift |
Introduction to Organic Spectroscopy, pp36-42 |
200minutes |
10. |
Nuclear magnetic resonance spectroscopy, Spin-spin coupling |
Introduction to Organic Spectroscopy, pp42-48 |
200minutes |
11. |
Nuclear magnetic resonance spectroscopy, Chemical structure |
Introduction to Organic Spectroscopy, pp48-53 |
200minutes |
12. |
Mass spectrometry, ionization and separation |
Introduction to Organic Spectroscopy, pp70-77 |
200minutes |
13. |
Mass spectrometry, fragmentation |
Introduction to Organic Spectroscopy, pp77-82 |
200minutes |
14. |
Examination 2, Answers and descriptions |
Nuclear magnetic resonance, Mass spectroscopy |
200minutes |
Total. |
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2800minutes |