Section 1 : IR Spectroscopy - Part I

Lecture 1 Electromagnetic Radiation 00:09:23 Duration
Lecture 2 Bonds as Springs 00:05:40 Duration
Lecture 3 Anatomy of an IR Spectrum
Lecture 4 Common Absorption Regions and Hooke's Law 00:05:53 Duration
Lecture 5 Alkanes 00:04:17 Duration
Lecture 6 Alkenes 00:04:26 Duration
Lecture 7 Alkynes 00:03:57 Duration
Lecture 8 Comparing Alkanes vs 00:05:20 Duration

Section 2 : IR Spectroscopy - Part II

Lecture 1 Alcohols 00:04:26 Duration
Lecture 2 Carboxylic acids 00:06:28 Duration
Lecture 3 Comparing Alcohols vs 00:02:54 Duration
Lecture 4 Comparing Carboxylic acids vs 00:05:44 Duration
Lecture 5 Comparing Esters vs 00:04:20 Duration
Lecture 6 Ketones vs 00:04:55 Duration
Lecture 7 Amines
Lecture 8 Aldehydes 00:03:22 Duration

Section 3 : Mass Spectrometry - Part I

Lecture 1 Intro to MS - Theory and Practice 00:06:45 Duration
Lecture 2 Base Peak vs 00:09:19 Duration
Lecture 3 Heterolytic vs 00:06:01 Duration
Lecture 4 Simple Alkane Fragmentation 00:09:56 Duration
Lecture 5 Mass of Common Fragments 00:01:32 Duration
Lecture 6 Fragment Stability and Relative Abundance 00:11:31 Duration
Lecture 7 Approximating Molecular Formula 00:09:33 Duration
Lecture 8 12C and 13C isotopes (M and M+1) 00:10:13 Duration
Lecture 9 A Space Analogy for Isotopic Abundance 00:07:22 Duration

Section 4 : Mass Spectrometry - Part II

Lecture 1 The Nitrogen Rule 00:04:57 Duration
Lecture 2 Alkyl Halides (Bromine) - 79Br and 81Br 00:07:51 Duration
Lecture 3 Alkyl Halides (Chlorine) - 35Cl and 37Cl 00:11:17 Duration
Lecture 4 Ethers 00:11:27 Duration
Lecture 5 Alcohols 00:13:10 Duration
Lecture 6 Ketones and the McLafferty Rearrangement 00:12:45 Duration

Section 5 : 1H NMR - Part I (Intro, # of Peaks, and Chemical Shifts)

Lecture 1 Intro to NMR - Theory and Practice 00:06:40 Duration
Lecture 2 Anatomy of a NMR Spectrum 00:03:58 Duration
Lecture 3 Predicting Number of Peaks - CH2 Equivalence 00:10:34 Duration
Lecture 4 Predicting Number of Peaks - CH3 Equivalence 00:09:25 Duration
Lecture 5 (VIDEO QUIZ!) Predicting Number of Peaks 00:09:07 Duration
Lecture 6 Predicting Number of Peaks - Alkenes 00:12:19 Duration
Lecture 7 Predicting Number of Peaks - Benzene 00:10:01 Duration
Lecture 8 Predicting Chemical Shifts 00:08:38 Duration
Lecture 9 (VIDEO QUIZ!) Predicting Chemical Shifts 00:05:22 Duration
Lecture 10 (COMBO PRACTICE!!) - Chemical Shifts + Number of Peaks 00:10:14 Duration

Section 6 : 1H NMR - Part II (Integration Values and Splitting)

Lecture 1 Integration Values 00:09:54 Duration
Lecture 2 Integration Practice 00:08:03 Duration
Lecture 3 (COMBO PRACTICE!!) - Chemical Shifts + Number of Peaks + Integration
Lecture 4 Splitting Patterns 00:08:22 Duration
Lecture 5 Splitting Pattern Practice 00:06:31 Duration
Lecture 6 (COMBO PRACTICE!!) - ALL SKILLS! 00:16:23 Duration
Lecture 7 1st Big Structure Prediction (DU introduction)
Lecture 8 (VIDEO QUIZ!) 2nd Big Structure Prediction 00:12:06 Duration
Lecture 9 Exchangeable Protons - (Alcohols, Amines, and Carboxylic acids)
Lecture 10 Funky Splitting Patterns - (Propyl groups) 00:08:59 Duration
Lecture 11 Funky Splitting Patterns - (Alkenes) 00:06:40 Duration
Lecture 12 Funky Splitting Patterns - (Chiral Carbons) 00:07:51 Duration

Section 7 : 13C NMR Spectroscopy

Lecture 1 Intro to 13C NMR 00:03:00 Duration
Lecture 2 Predicting Number of Peaks 00:07:47 Duration
Lecture 3 Chemical Shifts 00:05:34 Duration
Lecture 4 Integration Values and Splitting 00:04:29 Duration

Section 8 : (EXTRA PRACTICE!!) - Challenge Combo Problems

Lecture 1 1H NMR + 13C NMR 00:11:17 Duration
Lecture 2 1H NMR + IR 00:11:08 Duration
Lecture 3 1H NMR + IR + MS (First Example) 00:09:47 Duration
Lecture 4 1H NMR + IR + MS (Second Example) 00:15:02 Duration
Lecture 5 1H NMR + 13C NMR + IR + MS 00:11:21 Duration
Lecture 6 1H NMR + 13C NMR + IR + MS (FinalExample) '( 00:14:40 Duration