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source: UCIrvineOCW 次更新日期:2015年1月26日
UCI Chem 203 Organic Spectroscopy (Fall 2011)
View the complete course: http://ocw.uci.edu/courses/chem_203_o...
License: Creative Commons BY-NC-SA
Terms of Use: http://ocw.uci.edu/info.
More courses at http://ocw.uci.edu
Description: This is a graduate course in organic spectroscopy, focusing on modern methods used in structure determination of organic molecules. Topics include mass spectrometry; ultraviolet, chiroptical, infrared, and nuclear magnetic resonance spectroscopy.
Organic Spectroscopy (Chem 203) is part of OpenChem: http://ocw.uci.edu/collections/open_c...
This video is part of a 28-lecture graduate-level course titled "Organic Spectroscopy" taught at UC Irvine by Professor James Nowick.
UC Irvine OpenCourseWare 0:22
Lecture 01. Infrared Spectroscopy: Introduction 56:12
Discussion 01. Monday, September 26. Molecular Modeling with PyMOL 53:30
Lecture 02. C,H,O-Containing Functional Groups 51:47
Lecture 03: Ring Size Conjugation, Electron-Withdrawing Groups 51:44
Lecture 04. Mass Spectrometry. 55:22
Lecture 05. Isotopic Masses, Abundances, and Mass Spectrometry 52:23
Lecture 06. Alkanes, Alkenes, Heteroatom and Carbonyl Compounds 40:05
Lecture 07. Introduction to NMR Spectroscopy, Part 1 52:26
Lecture 08. Introduction to NMR Spectroscopy, Part 2 54:27
Lecture 09. Chemical Shift. 1H NMR Chemical Shifts 56:16
Lecture 10. 13C NMR Chemical Shifts. 57:39
Lecture 11. Magnetic Equivalence, Spin Systems, and Pople Notation 53:11
Lecture 12. Coupling Analysis in Systems 51:52
Lecture 13. Coupling Analysis in Systems (continued) 52:30
Lecture 14. Spin-Spin Coupling 55:30
Lecture 15. Coupling Involving Other Nuclei 55:07
Lecture 16. 13C Chemical Shifts in Structure & Stereochemistry 59:20
Lecture 17. Introduction to 2D NMR Spectroscopy 56:04
Lecture 18. Dynamic Effects in NMR Spectroscopy 55:33
Lecture 19. The Nuclear Overhauser Effect 54:39
Lecture 20. Understanding Complex Pulse Sequences 55:56
Lecture 21. Using HMBC to Help Solve Structures 54:29
Lecture 22. Aspects of COSY, HMQC, HMBC, and Related Experiments 52:45
Lecture 23. Using TOCSY to Elucidate Spin Systems. ROESY 53:54
Lecture 24. Using Organic Spectroscopy to Solve Complex Structures 52:58
Lecture 25. INADEQUATE. Some Thoughts on Homework Set 9 57:01
Lecture 26. Using Organic Spectroscopy to Solve Complex Structures 57:31
Lecture 27. Using HMQC-TOCSY or HSQC-TOCSY to Deal with Overlap 57:32
Lecture 28. Some Other Useful NMR Techniques 59:28
Showing posts with label B. (figures)-N-James Nowick. Show all posts
Showing posts with label B. (figures)-N-James Nowick. Show all posts
2015-09-29
Organic Chemistry (Fall 2009)--James Nowick / UC Irvine
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source: UCIrvineOCW 上次更新日期:2015年1月26日
UCI Chem 51A Organic Chemistry (Fall 2009)
View the complete course: http://ocw.uci.edu/courses/chem_51a_o...
Terms of Use: http://ocw.uci.edu/info.
More courses at http://ocw.uci.edu
Description: 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.
Organic Chemistry (Chem 51A) is part of OpenChem: http://ocw.uci.edu/collections/open_c...
UC Irvine OpenCourseWare 0:22
Lecture 01. Syllabus and Introduction. 51:13
Lecture 02. Bond Polarity, Formal Charge, Lewis Structures 50:37
Lecture 03. Resonance Structures, Skeletal Structures, Bond Length. 50:38
Lecture 04. Orbital Models of Structure and Bonding. 50:52
Lecture 05. Molecular Geometry, Acids and Bases. 49:46
Lecture 06. Acid Strength and Equilibria. 50:02
Lecture 07. Lewis Acids, Lewis Bases, and Organic Reaction Mechanisms. 49:35
Lecture 08. Organic Compounds and Functional Groups. 34:13
Lecture 09. Carbonyl Compounds, Intermolecular Forces. 52:16
Lecture 10. Introduction to Alkanes. 36:04
Lecture 11. Nomenclature of Alkanes, Conformations of Ethane 52:24
Lecture 12. Conformations of Butane and Cycloalkanes. 51:29
Lecture 13. Conformations of Cyclohexane. 36:58
Lecture 14. Introduction to Stereochemistry. 51:10
Lecture 15. Assigning Tetrahedral Stereogenic Centers. 52:26
Lecture 16. Meso Compounds. 50:53
Lecture 17. Properties of Chiral Compounds. 51:56
Lecture 18. Introduction to Understanding Organic Reactions 50:36
Lecture 19. Energy Diagrams, Transition States, and Reaction Rates. 48:04
Lecture 20. Energetics of Reactions. 36:42
Lecture 21. Introduction to Alkyl Halides and Nuceophilic Substitution. 49:28
Lecture 22. Mechanistic and Stereochemical Aspects of SN2 Reactions 50:56
Lecture 23. Mechanistic and Stereochemical Aspects of SN1 Reactions 36:39
Lecture 24. Properties of Electrophiles, Leaving Groups, and Nucleophiles 51:41
Lecture 25. Elimination Reactions. Introduction to E2 Reactions. 36:54
Lecture 26. Regiochemical and Stereochemical Course of E2 Reactions. 51:23
Lecture 27. E1 Reactions. Comparison of SN1, SN2, E1, and E2 Reactions. 50:01
source: UCIrvineOCW 上次更新日期:2015年1月26日
UCI Chem 51A Organic Chemistry (Fall 2009)
View the complete course: http://ocw.uci.edu/courses/chem_51a_o...
Terms of Use: http://ocw.uci.edu/info.
More courses at http://ocw.uci.edu
Description: 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.
Organic Chemistry (Chem 51A) is part of OpenChem: http://ocw.uci.edu/collections/open_c...
UC Irvine OpenCourseWare 0:22
Lecture 01. Syllabus and Introduction. 51:13
Lecture 02. Bond Polarity, Formal Charge, Lewis Structures 50:37
Lecture 03. Resonance Structures, Skeletal Structures, Bond Length. 50:38
Lecture 04. Orbital Models of Structure and Bonding. 50:52
Lecture 05. Molecular Geometry, Acids and Bases. 49:46
Lecture 06. Acid Strength and Equilibria. 50:02
Lecture 07. Lewis Acids, Lewis Bases, and Organic Reaction Mechanisms. 49:35
Lecture 08. Organic Compounds and Functional Groups. 34:13
Lecture 09. Carbonyl Compounds, Intermolecular Forces. 52:16
Lecture 10. Introduction to Alkanes. 36:04
Lecture 11. Nomenclature of Alkanes, Conformations of Ethane 52:24
Lecture 12. Conformations of Butane and Cycloalkanes. 51:29
Lecture 13. Conformations of Cyclohexane. 36:58
Lecture 14. Introduction to Stereochemistry. 51:10
Lecture 15. Assigning Tetrahedral Stereogenic Centers. 52:26
Lecture 16. Meso Compounds. 50:53
Lecture 17. Properties of Chiral Compounds. 51:56
Lecture 18. Introduction to Understanding Organic Reactions 50:36
Lecture 19. Energy Diagrams, Transition States, and Reaction Rates. 48:04
Lecture 20. Energetics of Reactions. 36:42
Lecture 21. Introduction to Alkyl Halides and Nuceophilic Substitution. 49:28
Lecture 22. Mechanistic and Stereochemical Aspects of SN2 Reactions 50:56
Lecture 23. Mechanistic and Stereochemical Aspects of SN1 Reactions 36:39
Lecture 24. Properties of Electrophiles, Leaving Groups, and Nucleophiles 51:41
Lecture 25. Elimination Reactions. Introduction to E2 Reactions. 36:54
Lecture 26. Regiochemical and Stereochemical Course of E2 Reactions. 51:23
Lecture 27. E1 Reactions. Comparison of SN1, SN2, E1, and E2 Reactions. 50:01
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