| Published | 2022-06-13 |
| Platform | Udemy |
| Number of Students | 1 |
| Price | $59.99 |
| Instructors |
Dr. Alireza Fattahi
|
| Subjects |
Learn Organic Chemistry 1 via Modern Teaching Method, high quality recorded lectures, and Numerous Solved Problems!!
10 sections • 190 lectures • 23h 56m total length
Section 1: Basic Concepts of Organic Chemistry (33 video lectures):
1. Chemical Bonds
2. Common Bonding Pattern
3. Lewis Structure
4. Lewis Structure-Sample problems
5. Resonance forms
6. Resonance Hybrid
7. Formal Charge
8. Exception to the Octet Rule
9. Resonance Contribution
10. Functional Groups
11. Molecular Geometry
12. Condensed Structure of Organic Molecules
13. Line-angle or Skeletal Structure of Organic Molecules
14. Skeletal Structures with Charged Carbons-Carbocations and Carbanions
15. Structural or Constitutional Isomers
16. Atomic and Hybrid Orbitals
17. Determining Hybridization
18. Sigma and pi Bonds in Double and Triple Bonds
19. Electronegativity and Polarity of Bonds and Molecules
20. Factors affecting Bond length and Bond energy
21. Intermolecular Interactions
22. Intermolecular Forces and Boiling and Melting Points
23. Solubility of Organic Molecules-Like dissolves Like
24. Hydrophobic and Hydrophilic parts
25. Acids and Bases
26. The extent of Reaction between Acids and Bases
27. Factors affecting Acidity
28. Lewis Acids-Lewis Bases
29. Electrophiles and Nucleophile
30. Energy Diagrams
31. Energy Diagrams of Two-Step Reactions
32. Rate Equations
33. Catalysts
Section 2: Alkanes (19 video lectures)
1. Introduction to Alkanes and Cycloalkanes
2. Naming Branched Alkanes
3. Naming Cycloalkanes
4. Classification of Carbon and Hydrogen Atoms
5. Constitutional or Structural Isomers
6. Cis-Trans Isomerism in cycloalkanes
7. Conformations of Alkanes
8. Neman Projection
9. Conformational Analysis of Ethane
10. Conformational Analysis of Propane
11. Newman projections of Butane
12. Conformational Analysis of Butane
13. Angle Strain and Torsional Strain in Cycloalkanes
14. Conformational Analysis of Cyclohexane
15. 1,3-Diaxila Interaction in Cyclohexane Derivatives
16. Conformational change of methyl cyclohexane-Newman projection
17. Conformations of disubstituted cyclohexane
18. Sample problems of Conformations of disubstituted cyclohexane
19. Polycyclic Compounds
Section 3: Stereochemistry (18 video lectures)
1. Stereoisomers
2. Enantiomers-Chiral Molecules
3. R and S configuration assignment
4. Determination of priorities for double and triple bonds
5. Fischer projection
6. Sample problems for configuration assignment
7. Diastereomers
8. Meso compounds
9. Stereochemistry of conformations of Butane
10. Conformational enantiomers
11. Sample problems for relationship between stereoisomers-1
12. Sample problems for relationship between stereoisomers-2
13. Plane-polarized Light and distinguishing Enantiomers
14. Specific rotation
15. Racemic mixtures
16. Physical properties of stereoisomers
17. Enantiomeric excess or optical purity
18. Conversion of achiral reactant to chiral product
Section 4: Substitution (25 video lectures)
1. Introduction to Substitution Reactions
2. Alkyl-Vinyl-Aryl-Benzyl Halides
3. Naming Alkyl Halides
4. Nucleophilicity versus Basicity
5. SN2 Mechanism-Introduction
6. Energy Diagram of SN2 Reactions
7. Inversion of configuration in SN2 reactions
8. Effect of Nucleophile on SN2 Reactions
9. Effect of Solvent on SN2 Reactions
10. Effect of Leaving group on SN2 Reactions
11. Effects of Substrate on SN2 Reactions
12. SN1 Mechanism-Introduction
13. Energy Diagram of SN1 Reactions
14. Effects of Substrate on SN1 Reactions
15. Effect of Solvent on SN1 Reactions
16. Stereochemistry of SN1-Racemization
17. SN1 Reaction on a Ring
18. Rearrangements in SN1 Reaction
19. Effect of Nucleophile on SN1 Reactions
20. Effect of Nucleophile on Substitution Reaction of Secondary Alkyl Halides
21. Effect of Leaving Group on SN1 Reactions
22. Aryl and Vinyl Halides-SN1 and SN2 Reactions
23. Sample Problems of SN1 Reactions
24. Sample problems of SN1 and SN2 Reactions
25. Characteristics of SN2 and SN1 Reactions
Section 5: Elimination (23 video lectures)
1. Introduction to Elimination Reaction
2. Structures and Stereoisomers of Alkenes
3. Classification and and relative energy of Alkenes
4. E1 Mechanism-Introduction
5. Energy Diagram for E1 Reactions
6. Effect of Alkyl Halide Structure on E1 Reactions
7. Zaitsev Rule
8. Regioselectivity of E1 Reactions
9. Rearrangements in E1 Mechanism
10. Effect of Leaving Group on E1 Reactions
11. Effect of Solvent on E1 Reactions
12. Competition Between the SN1 and E1 Reactions
13. E2 Mechanism-Introduction
14. Energy Diagram for E2 Reactions
15. Effect of Alkyl Halide Structure on E2 Reactions
16. Regioselectivity and Stereoselectivity of E2 Reactions
17. Effect of Leaving Group on E2 Reactions
18. Effect of Solvent on E2 Reactions
19. Elimination Reactions under E1 or E2 conditions
20. Stereospecifity of E2 Reactions
21. Comparison of E2 and E1 Mechanisms
22. Anti-coplanar Orientation for E2 Reactions
23. E2 Reactions on Halocyclohexanes-Zaitsev and anti-Zaitsev products
Section 6: Alkenes (24 video lectures)
6. Structure of Alkenes
2. Degrees of Unsaturation
3. Alkene Nomenclature
4. Cis-Trans and E-Z Geometric Isomers
5. Hydrogenation of Alkenes
6. Dehydrohalogenation by E2
7. Zaitsev and Hofmann Products
8. Dehydrohalogenation by E1
9. Dehalogenation of Vicinal Dibromides
10. Reactions of Alkenes
11. Hydrohalogenation of Alkenes
12. Markovnikov's Rule
13. Hydration of Alkenes
14. Oxymercuration-Demercuration
15. Hydroboration-Oxidation
16. Halogenation of Alkenes
17. Halohydrin Formation
18. Cyclopropanation Reaction
19. Epoxidation Reaction
20. Syn Dihydroxylation of Alkenes
21. Anti Dihydroxylation of Alkenes
22. Oxidative cleavage of Alkenes
23. Ozonolysis of Alkenes
24. Polymerization of Alkenes
Section 7: Alkynes (10 video lectures)
1. Alkynes nomenclature and structure
2. Alkyne Synthesis using Dehydrohalogenation
3. Formation of Acetylide Ions
4. Reactions of Acetylide Ions
5. Hydrogenation of Alkynes
6. Halogenation of Alkyne
7. Hydrohalogenation of Alkyne
8. Hydration of Alkynes
9. Hydroboration of Alkynes
10. Oxidative cleavage of Alkynes
Section 8: Alcohols (17 video lectures)
1. Structure of Alcohols
2. Acidity of Alcohols
3. Organometallic Reagents
4. Preparation of Alcohols using R-Li
5. Preparation of Alcohols using Grignard Reagent
6. Preparation of Alcohols using Hydride Reduction
7. Introduction to Reactions of Alcohols
8. Oxidation of Alcohols
9. Tosylation of Alcohols for SN2 and E2 Reactions
10. Conversion of Alcohols to Alkyl Halides with HX
11. Reaction of Alcohols with Lucas Reagent
12. Conversion of 1 and 2 Alcohols into R-Br using PBr3
13. Conversion of 1 and 2 Alcohols into R-Cl using SOCl2
14. Dehydration of Alcohols
15. Dehydration of Alcohols and Carbocation Rearrangements
16. Dehydration of Alcohols using POCl3
17. Pinacol Rearrangement
Section 9: Ethers-Epoxides-Sulfides (13 video lectures)
1. Structures and Nomenclatures of Ethers-Epoxides-Sulfides
2. Williamson Ether Synthesis
3. Synthesis of Ethers using Bimolecular Dehydration of Alcohols
4. Electrophilic Addition of Alcohols to Alkenes
5. Alokoxymercuraion-Demercuration Reaction
6. Reaction of an Ether with Hydrohalic Acids
7. Epoxidation of Alkenes
8. Forming Epoxides from Halohydrins
9. Acid-Catalyzed Opening of Epoxides
10. Base-Catalyzed Opening of Epoxides
11. Organometallic Reactions with Epoxides
12. Reactions of Epoxides with Lithium Aluminum Hydride
13. Sulfides (Thioether)
Section 10: Radical Reactions (8 video lectures)
1. Structure of Radicals
2. Radical Halogenation of Alkanes
3. Energy Diagram for Radical Propagation
4. Product Mixture in Radical Halogenation
5. Allylic Halogenation using NBS
6. Regiochemistry of Allylic Halogenation
7. Radical Addition of H-Br to Alkenes
8. Sample Problems of Radical Substitution Reaction