Organic Chemistry

About Course

Organic Chemistry (OC) is defined as the branch of chemistry, originally limited to substances found only in living organisms, dealing with the compounds of carbon.

What’s with all the hype?

Most science majors would have to undergo an (OC) module which has been proven to be a very daunting and challenging field to excel in. Students often struggle to even pass the subject. Organic Chemistry can get progressively tough especially when the core foundation is not strong.

So why should you take this course?

This isn’t a typical organic chemistry course where I explain to you concepts just for you to memorize. I’ll make you understand the most basic principles and show you how simple questions are when you’ve got your foundation solid. In addition, I’ll drop some tips and tricks for typical questions so that you have it all covered! At the end of the course, you’ll be able to take your exam in absolute confidence and get superb grades!

Who this course is for:

Anyone and everyone who is interested! This is a basic course that covers the underlying principles of organic chemistry for the high-schoolers or even the pre-meds!

Course Content

Organic Chemistry

Baeyer-Villiger Oxidation

00:00
Homotopic, Enantiotopic, Diastereotopic, and Heterotopic Protons

00:00
Mass Spectrometry

00:00
Reactions of Epoxides

00:00
Hemiacetals, Acetals, and Imines

00:00
Retrosynthetic Analysis

00:00
Leaving Group Derivatives

00:00
Protecting Groups

00:00
Nomenclature of Polycyclic Compounds: Naphthalene, Biphenyl, Anthracene, Spiro, Bicyclo

00:00
NMR Spectroscopy

00:00
IR Spectroscopy

00:00
Anti-Markovnikov Hydrohalogenation

00:00
Electrophillic Aromatic Substitution

00:00
Friedel-Crafts Alkylation

00:00
Friedel-Crafts Acylation

00:00
Ortho/Meta/Para Directors

00:00
Clemmensen Reduction

00:00
Grignard Reaction

00:00
Wittig Reaction

00:00
More Examples Using the Cahn-Ingold-Prelog Convention

00:00
More Practice With H-NMR Spectra

00:00
Assigning R/S on Fischer Projections

00:00
Fischer Esterification and Saponification

00:00
Organolithium Reagents

00:00
Organocuprates (Gilman Reagents)

00:00
Stereospecificity vs. Stereoselectivity and Regiospecificity vs. Regioselectivity

00:00
Oxidation of Alkenes Using Potassium Permanganate (Hot and Cold Conditions)

00:00
Hofmann Elimination via Exhaustive Methylation of Amines

00:00
Beckmann Rearrangement

00:00
Properties of Amides

00:00
Carbonic Acid Derivatives

00:00
Chiral Molecules With No Chiral Centers

00:00
Separating Components of a Mixture by Extraction

00:00
Thin Layer Chromatography (TLC)

00:00
Column Chromatography

00:00
Separating Liquids by Distillation

00:00
Recrystallization

00:00
Nucleophilic Aromatic Substitution

00:00
Carboxylic Acids and Their Derivatives

00:00
Free Radical Halogenation

00:00
Free Radicals

00:00
Nucleophiles, Electrophiles, Leaving Groups, and the SN2 Reaction

00:00
SN1 Reaction

00:00
E2 Reaction

00:00
E1 Reaction

00:00
Choosing Between SN1/SN2/E1/E2 Mechanisms

00:00
E2 on Cyclic Systems

00:00
Zaitsev and Hofmann Elimination Products

00:00
E/Z Absolute Configuration of Alkenes

00:00
Stereochemistry: Meso Compounds, Diastereomers

00:00
Cahn-Ingold-Prelog Convention (Determining R/S)

00:00
IUPAC Nomenclature of Alkanes: Part 2

00:00
IUPAC Nomenclature of Haloalkanes and Alcohols

00:00
IUPAC Nomenclature of Alkenes and Alkynes

00:00
IUPAC Nomenclature of Cyclic Compounds

00:00
Resonance Structures/Assigning Formal Charge

00:00
Conformational Analysis of Ethane and Butane – Newman Projections

00:00
Cyclohexane Chairs

00:00
Stereochemistry: Enantiomers

00:00
Carbocation Rearrangement – Hydride and Methanide Shifts

00:00
Addition Reactions

00:00
Oxidation and Reduction

00:00
Aldol Condensation

00:00
Michael Addition

00:00
Robinson Annulation

00:00
Regioselective Enolization and Thermodynamic vs. Kinetic Control

00:00
Claisen Condensation and Dieckmann Condensation

00:00
Reactions of Beta-Dicarbonyl Compounds

00:00
Aromaticity and Huckel’s Rule

00:00
Ozonolysis

00:00
Diels-Alder Cycloaddition

00:00
Hydrohalogenation, Hydration, Dihalogenation

00:00
Addition on Conjugated Polyunsaturated Systems

00:00
Hydrogenation of Alkynes

00:00
Halohydrin Formation

00:00
Oxymercuration-Demercuration

00:00
Hydroboration-Oxidation

00:00
Alkyne Synthesis by Double Dehydrohalogenation

00:00
Williamson Ether Synthesis

00:00
IUPAC Nomenclature of Alkanes: Part 1

00:00

Student Ratings & Reviews

No Review Yet

About Course

Organic Chemistry (OC) is defined as the branch of chemistry, originally limited to substances found only in living organisms, dealing with the compounds of carbon.

Who this course is for:

What Will You Learn?

Course Content

Organic Chemistry

Baeyer-Villiger Oxidation

Homotopic, Enantiotopic, Diastereotopic, and Heterotopic Protons

Mass Spectrometry

Reactions of Epoxides

Hemiacetals, Acetals, and Imines

Retrosynthetic Analysis

Leaving Group Derivatives

Protecting Groups

Nomenclature of Polycyclic Compounds: Naphthalene, Biphenyl, Anthracene, Spiro, Bicyclo

NMR Spectroscopy

IR Spectroscopy

Anti-Markovnikov Hydrohalogenation

Electrophillic Aromatic Substitution

Friedel-Crafts Alkylation

Friedel-Crafts Acylation

Ortho/Meta/Para Directors

Clemmensen Reduction

Grignard Reaction

Wittig Reaction

More Examples Using the Cahn-Ingold-Prelog Convention

More Practice With H-NMR Spectra

Assigning R/S on Fischer Projections

Fischer Esterification and Saponification

Organolithium Reagents

Organocuprates (Gilman Reagents)

Stereospecificity vs. Stereoselectivity and Regiospecificity vs. Regioselectivity

Oxidation of Alkenes Using Potassium Permanganate (Hot and Cold Conditions)

Hofmann Elimination via Exhaustive Methylation of Amines

Beckmann Rearrangement

Properties of Amides

Carbonic Acid Derivatives

Chiral Molecules With No Chiral Centers

Separating Components of a Mixture by Extraction

Thin Layer Chromatography (TLC)

Column Chromatography

Separating Liquids by Distillation

Recrystallization

Nucleophilic Aromatic Substitution

Carboxylic Acids and Their Derivatives

Free Radical Halogenation

Free Radicals

Nucleophiles, Electrophiles, Leaving Groups, and the SN2 Reaction

SN1 Reaction

E2 Reaction

E1 Reaction

Choosing Between SN1/SN2/E1/E2 Mechanisms

E2 on Cyclic Systems

Zaitsev and Hofmann Elimination Products

E/Z Absolute Configuration of Alkenes

Stereochemistry: Meso Compounds, Diastereomers

Cahn-Ingold-Prelog Convention (Determining R/S)

IUPAC Nomenclature of Alkanes: Part 2

IUPAC Nomenclature of Haloalkanes and Alcohols

IUPAC Nomenclature of Alkenes and Alkynes

IUPAC Nomenclature of Cyclic Compounds

Resonance Structures/Assigning Formal Charge

Conformational Analysis of Ethane and Butane – Newman Projections

Cyclohexane Chairs

Stereochemistry: Enantiomers

Carbocation Rearrangement – Hydride and Methanide Shifts

Addition Reactions

Oxidation and Reduction

Aldol Condensation

Michael Addition

Robinson Annulation

Regioselective Enolization and Thermodynamic vs. Kinetic Control

Claisen Condensation and Dieckmann Condensation

Reactions of Beta-Dicarbonyl Compounds

Aromaticity and Huckel’s Rule

Ozonolysis

Diels-Alder Cycloaddition

Hydrohalogenation, Hydration, Dihalogenation

Addition on Conjugated Polyunsaturated Systems

Hydrogenation of Alkynes