Tutors

Ravi Pandey

PROGRAM OVERVIEW

CURRICULUM

  Spectroscopy

  • Spectroscopy || Lecture 1
  • Spectroscopy || Lecture 2
  • Spectroscopy || Lecture 3
  • Spectroscopy || Lecture 4
  • Spectroscopy || Lecture 5
  • Spectroscopy || Lecture 6A
  • Spectroscopy || Lecture 6B
  • Lecture 7
  • Lecture 8
  • Lecture 9
  • Lecture 10
  • Lecture 11
  • Lecture 12
  • Lecture 13
  • Lecture 14
  • Lecture 15
  • Lecture 16
  • Lecture 17
  • Lecture 18
  • Lecture 19
  • Lecture 20
  • Lecture 21
  • Lecture 22
  • Lecture 23
  • Lecture 24
  • Lecture 25
  • Lecture 26
  • Lecture 27
  • Lecture 28
  • Lecture 29
  • Lecture 30
  • Lecture 31
  • Lecture 32
  • Lecture 33
  • Lecture 34
  • Lecture 35
  • Lecture 36
  • Lecture 37
  • Lecture 38
  • Lecture 39
  • Lecture 40
  • Lecture 41
  • Lecture 42
  • Lecture 43
  • Lecture 44
  • Lecture 45
  • Lecture 46
  • Lecture 47
  • Lecture 48
  • Lecture 49
  • Lecture 50
  • Lecture 51
  • Lecture 52
  • Lecture 53
  • Lecture 54
  • Lecture 55

  Reaction Mechanism (2)

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6
  • Lecture 7
  • Lecture 8
  • Lecture 9
  • Lecture 10
  • Lecture 11
  • Lecture 12
  • Lecture 13
  • Lecture 14
  • Lecture 15
  • Lecture 16
  • Lecture 17
  • Lecture 18
  • Lecture 19
  • Lecture 20
  • Lecture 22
  • Lecture 21

  Pericyclic Reaction

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6
  • Lecture 7
  • Lecture 8
  • Lecture 9
  • Lecture 10
  • Lecture 11
  • Lecture 12
  • Lecture 13
  • Lecture 14
  • Lecture 15
  • Lecture 16
  • Lecture 17
  • Lecture 18
  • Lecture 19
  • Lecture 20
  • Lecture 21
  • Lecture 22
  • Lecture 23
  • Concept of Torque Selectivity
  • Nazarov Cyclization

  GOC Basic

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6
  • Lecture 7
  • Lecture 8

  GOC Advance

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6
  • Lecture 7
  • Lecture 8
  • Lecture 9
  • Lecture 10

  Aromaticity

  • Lecture 1
  • Lecture 2
  • Lecture 3

  Polymer

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4

  Photochemistry (Organic)

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5

  Enolate Chemistry

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6
  • Lecture 7
  • Lecture 8
  • Lecture 9
  • Lecture 10
  • Lecture 11
  • Lecture 12
  • Lecture 13
  • Lecture 14

  Reactive Intermediate

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6
  • Lecture 7
  • Lecture 8
  • Lecture 9
  • Lecture 10
  • Lecture 11
  • Lecture 12
  • Lecture 13
  • Lecture 14

  Reaction Mechanism

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • NSR 1
  • NSR 2
  • NSR 3

  Name Reaction

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6

  Oxidizing Reagent

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6
  • Lecture 7
  • Lecture 8
  • Lecture 9
  • Lecture 10
  • Lecture 11
  • Lecture 12
  • Lecture 13
  • Lecture 14

  Heterocyclic

  • 1. Introduction and types of Heterocyclic Ring
  • 2. Paal - Knorr Synthesis
  • 3. Knorr Synthesis
  • 4. Hantzsch Synthesis
  • 5. Introduction of Aromatic Electrophilic and Nucleophilic Substitution + Nitration
  • 6. Wheland Sigma-Complex Theory
  • 7. Rate of Aromatic Electrophilic Substitution
  • 8. Aromatic Electrophilic Substitution at Pyridine
  • 9. Aromatic Nucleophilic Substitution

  Stereochemistry By Ashish Sir

  • 1. Introduction
  • 2. Stereoisomers
  • 3. Cahn–Ingold–Prelog (CIP) Rule
  • 4. Wedge-Dash Notation
  • Lecture 5
  • Lecture 6
  • 7. Newman to Fischer Projection
  • 8. Wedge-Dash to Sawhorse
  • 9. Stereochemistry of cyclic compound - I
  • 10. Stereochemistry of cyclic compound - II
  • 11. Conformational Analysis of Ethane and Butane
  • 12. Conformational Analysis of cyclo - hexane
  • 13. Optical Isomer - I
  • 14. Optical Isomer - II
  • 15. Geometrical Isomer - I
  • 16. Geometrical Isomer - II
  • 17. Number of Geometric Isomer
  • 18. Angle of Rotation and Specific Rotation
  • 19. Enantiomeric Excess
  • 20. Solved Questions

  Reducing Reagents By Ashish Sir

  • 1. Introduction of Reagents
  • 2. Dissolving Metal Reduction and Wurtz Reaction
  • 3. Comparison between Pinacol coupling, Bouveault-Blanc Reduction and Birch Reduction
  • 4. Acyloin condensation, Birch Reduction and Bouveault-Blanc Reduction
  • 5. Birch Reduction
  • Reagents Lecture 6
  • Reagents Lecture 7
  • Reagents Lecture 8
  • Reagents Lecture 9
  • Reagents Lecture 10
  • Reagents Lecture 11
  • Reagents Lecture 12
  • Reagents Lecture 13
  • Reagents Lecture 14
  • Reagents Lecture 15
  • Reagents Lecture 16
  • Reagents Lecture 17
  • Reagents Lecture 18

  Oxidizing Reagents By Ashish Sir

  • 1. Oxidation of Alkenes
  • 2. Oxidation Stereochemistry
  • 3. Diol Formation
  • 4. Oxidation via KMnO4
  • 5. Cleavage of Diol and 1,2 Hetero Atom
  • 6. Ozonolysis
  • 7. Oxidation of Hydrocarbon
  • 8. Oxidation of Benzene
  • 9. Cr based oxidation
  • 10. Cr Based Oxidation - II
  • 11. Collins and Jones Reagent
  • 12. Swern Oxidation
  • Lecture 13

  Organometallic Reagents

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4