Tutors

Ravi Pandey

PROGRAM OVERVIEW

CURRICULUM

  Chemical Kinetics

  • Lecture 1
  • Chemical kinetics || Lecture 2
  • Chemical kinetics || Lecture 3
  • Chemical Kinetics || Lecture 5
  • Chemical Kinetics || Lecture 4
  • Chemical Kinetics || Lecture 7
  • Chemical Kinetics || Lecture 6
  • Chemical Kinetics || Lecture 8
  • Chemical Kinetics || Lecture 9
  • Chemical Kinetics || Lecture 10
  • Chemical Kinetics || Lecture 11
  • Chemical Kinetics || Lecture 14
  • Chemical Kinetics || Lecture 12
  • Chemical Kinetics || Lecture 13
  • Chemical Kinetics || Lecture 15
  • Chemical Kinetics || Lecture 16
  • Chemical Kinetics || Lecture 17

  Quantum Chemistry

  • Quantum Chemistry || Lecture 1
  • Quantum Chemistry || Lecture 2
  • Quantum Chemistry || Lecture 3
  • Quantum Chemistry || Lecture 4
  • Quantum Chemistry || Lecture 6
  • Quantum Chemistry || Lecture 8
  • Quantum Chemistry || Lecture 7
  • Quantum Chemistry || Lecture 10
  • Quantum Chemistry || Lecture 9
  • Quantum Chemistry || Lecture 5
  • Quantum Chemistry || 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
  • Assignment 1 Solution
  • Assignment 2 Solution

  Photochemistry

  • Photochemistry || Lecture 1
  • Photochemistry || Lecture 2
  • Photochemistry || Lecture 3
  • Photochemistry || Lecture 4
  • Photochemistry || Lecture 5

  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

  Surface Chemistry

  • Surface Chemistry || Lecture 1
  • Surface Chemistry || Lecture 2
  • Surface Chemistry || Lecture 3
  • Surface Chemistry || Lecture 5
  • Surface Chemistry || Lecture 4
  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6
  • Lecture 7

  Electrochemistry

  • Electrochemistry || Lecture 1
  • Electrochemistry || Lecture 2
  • Electrochemistry || Lecture 3
  • Electrochemistry || Lecture 4
  • Lecture 5A
  • Lecture 5B
  • Lecture 5C
  • Electrochemistry || Lecture 6
  • Electrochemistry || Lecture 7A
  • Electrochemistry || Lecture 7B
  • Electrochemistry || Lecture 8
  • Electrochemistry || Lecture 9
  • Electrochemistry || Lecture 10
  • Electrochemistry || Lecture 11
  • Electrochemistry || Lecture 12
  • Electrochemistry || Lecture 13
  • Electrochemistry || Lecture 14
  • Electrochemistry || Lecture 15
  • Lecture 16
  • Electrochemistry || Lecture 17
  • Electrochemistry || Lecture 18
  • Electrochemistry || Lecture 19
  • Electrochemistry || Lecture 20
  • Electrochemistry || Lecture 21
  • Electrochemistry || Lecture 22
  • Electrochemistry || Lecture 23

  Chemical Bonding Assignment

  • Solution of Q6 - 12
  • Solution of Q 13 - 16
  • Solution of Q 1 - 5
  • Solution of Q 17 - 19
  • Solution of Q 20 - 26
  • Solution of Q 27 - 34
  • Solution of Q 35 - 41
  • Solution of Q 42 - 46
  • Solution of Q 47 - 52
  • Solution of Q 53 - 59
  • Solution of Q 60 - 65
  • Solution of Q 66 - 72
  • Solution of Q 73 - 77
  • Solution of Q 78 - 82
  • Solution of Q 83 - 87
  • Solution of Q 88 - 95
  • Solution of Q 96 - 100

  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

  Coordination 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
  • Lecture 15
  • Lecture 16
  • Lecture 17
  • Lecture 18
  • 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 19
  • Lecture 20
  • Lecture 21
  • Lecture 22

  Group Theory

  • 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

  Coordination Assignment

  • Coordination Assignment1 Q1 4
  • Coordination Assignment1 Q5 9
  • Coordination Assignment1 Q10 13
  • Coordination Assignment1 Q14 18
  • Coordination Assignment1 Q19 23
  • Coordination Assignment1 Q24 29
  • Coordination Assignment1 Q30 35
  • Coordination Assignment1 Q36 42
  • Coordination Assignment2 Q1 6
  • Coordination Assignment2 Q7 12
  • Coordination Assignment2 Q13 18
  • Coordination Assignment2 Q19 23
  • Coordination Assignment2 Q24 27
  • Coordination Assignment2 Q28 32
  • Coordination Colour Q1 6
  • Coordination Colour Q7 12
  • Coordination Colour Q13 18
  • Coordination Colour Q19 24
  • Coordination Colour Q25 30
  • Coordination Colour Q31 37
  • Coordination Colour Q38 44
  • Coordination Colour Q44 48
  • Coordination Colour Q49 53
  • Coordination Colour Q80 85
  • Coordination Isomerism Q1 5
  • Coordination Isomerism Q6 10
  • Coordination Isomerism Q11 15
  • Coordination Isomerism Q16 20
  • Coordination Isomerism Q21 26
  • Coordination Magnetism Q1 6
  • Coordination Magnetism Q7 12
  • Coordination Magnetism Q13 17
  • Coordination Magnetism Q18 22
  • Coordination Magnetism Q23 26
  • Coordination Magnetism Q27 31
  • Coordination Mechanism Q1 3
  • Coordination Mechanism Q4
  • Coordination Mechanism Q4 8
  • Coordination Mechanism Q9 10 Q61 63
  • Coordination Mechanism Q11 15
  • Coordination Mechanism Q16 21
  • Coordination Mechanism Q22 25
  • Coordination Mechanism Q26 31
  • Coordination Mechanism Q32 37
  • Coordination Mechanism Q38 42
  • Coordination Mechanism Q43 47
  • Coordination Mechanism Q48 53
  • Coordination Mechanism Q54 59

  Thermochemistry

  • Lecture 1
  • Lecture 2
  • Lecture 3

  Organometallic 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
  • 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

  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

  Main Group

  • Main Group NET Q1 5
  • Main Group Net Q6 11
  • Main Group Net Q12 18
  • Main Group NET Q19 23
  • Main Group NET Q24 30
  • Main Group NET Q31 37
  • Main Group NET Q38 44
  • Main Group NET Q45 51
  • Main Group NET Q52 58
  • Main Group NET Q59 66
  • Main Group NET Q69 74
  • Main Group GATE Q1 6
  • Main Group GATE Q7 14
  • Main Group GATE Q15 20
  • Main Group GATE Q21 25
  • Main Group GATE Q26 32
  • Main Group GATE Q33 39
  • Main Group GATE Q40 47

  Bioinorganic

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

  Gaseous State

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

  Phase Equilibrium

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

  Periodic Properties

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

  Mole Concepts

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

  GOC Basic

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

  Redox Reactions

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

  Statistical Thermodynamics

  • Lecture 1
  • Lecture 2
  • Lecture 3
  • Lecture 4
  • Lecture 5
  • Lecture 6
  • Lecture 7
  • Lecture 8
  • Lecture 9
  • Lecture 10
  • Activated Complex Theory in form of Partition Function and its comparison with Collision

  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

  Chemical Bonding (By Manjeet Sir)

  • 1. Introduction
  • 2. Axial and Non - axial d - orbital | Conical Node
  • 3. Bond Formation
  • 4. Bonding, Anti Bonding and Non Bonding
  • 5. Ionic & Covalent Bond and Excitation Theory
  • 6. Contraction Rule/Theory
  • 7. Mixing, Orbital Analysis, Hybridization Index and %s & p character in lone pair and bond pair
  • 8. Drago's Rule
  • 9. Application of Drago's Rule
  • 10. Fluxional Behaviour of Ammonia and Stereochemically Active Lone Pair
  • 11. Characteristics of S-Orbital and Modified Electronegativity
  • 12. S-Philes and Bond Length
  • 13. Hybridisation
  • 14. VSEPR Theory
  • 15. Application of VSEPR Theory
  • 16. NBEPR Dominating Factor and Application of NBEPR
  • 17. Geometry and Shape of Molecules
  • 18. Determination of Geometry and shape of Molecules from Steric Number
  • 19. Determination of Geometry and shape of Molecules from Steric Number 2
  • 20. Determination of Geometry and shape of Molecules from Steric Number 3
  • 21. Determination of Geometry and shape of Molecules from Steric Number 4
  • 22. Steric No.5 Part 1
  • 23. Steric No.5 Part 2
  • 24. Steric No.5 Part 3
  • 25. Steric No.5 Part 4
  • 26. Steric No.6 Part 1
  • 27. Steric No.6 Part 2
  • 28. Steric No.7
  • 29. Steric No.8
  • 30. Hybridization in odd electron species
  • 31. Hybridization in odd electron species Part 2
  • 32. Hybridization in solid form of covalent compound
  • 33. Concept of Equivalence Resonance
  • 34. MOT Part - 1
  • 35. MOT Part - 2
  • 36. MOT Part - 3
  • 37. MOT Part - 4
  • 38. MOT Part - 5
  • 39. MOT Part - 6
  • 40. MOT Part - 7
  • 41. MOT Part - 8
  • 42. MOT Part - 9
  • 43. MOT Part - 10
  • 44. MOT Part - 11
  • 45. MOT Part - 12
  • 46. MOT Part - 13

  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

  Solutions

  • Lecture 2 - Concentration Terms
  • 3. Molarity and Molality
  • 4. Normality, n-Factor and Mole Fraction
  • 5. Solubility and Vapour Pressure
  • 6. Raoult's Law and Azeotropes
  • 7. Colligative Properties
  • 8. Osmotic Pressure

  Chemical Equilibrium

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

  Atomic Structure

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

  Ionic Equilibrium

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

  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

  Solid State

  • Lecture 14
  • Lecture 15
  • Lecture 16
  • Lecture 17
  • Lecture 18
  • Lecture 19
  • 20. Non - Stoichiometry, Electronic and Impurity Defects
  • 21. Numericals
  • 22. Band Theory of Solids
  • 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

  Nuclear Chemistry

  • 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

  Main Group Elements (By - Manjeet Sir)

  • 1. Oxy-Acids of Phosphorous
  • 2. Oxy - acids of Sulphur
  • 3. Oxy-acids of Halogen, Silicon, Nitrogen and Peroxy Linkage
  • 4. Oxides of Phosphorous
  • 5. Sulphides of Phosphorous
  • 6. Back Bonding
  • 7. Application of Back Bonding
  • 8. Bridge Bonding Or Polymerization
  • 9. Bridge Bonding Or Polymerization-2
  • 10. Wade(STYX) Rule
  • 11. Silicates
  • 12. Silicates-2
  • 13. Silicon Polymer (Inorganic Polymer)
  • 14. Hydrolysis
  • 15. Hydrolysis-2
  • 16. Hydrolysis of Halogens
  • 17. Naming of Anions
  • 18. Polymeric form of some compounds
  • 19. Polymeric Form of Boron and Nitrogen
  • 20. Polymeric form of Carbon and Nitrogen
  • 21. Borax
  • 22. Allotropes of Carbon, Phosphorous and Sulphur, Carbide
  • 23. Acid Base Chemistry
  • 24. Solvent Theory
  • 25. Autoionization of Protic Solvent
  • 26. Levelling and Differential Effect and Super Acid
  • 27. HSAB Principle
  • 28. Application of HSAB Principle and Irving William Series
  • 29. Noble Gases
  • 30. Halogen
  • 31. Inter Halogen Compounds
  • 32. S-Block Elements
  • 33. Various Forces and its relation with r
  • 34. H-Bonding
  • 35. Fajan's Rule
  • 36. Lattice Energy, Thermodynamic Stability
  • 37. Thermal Decomposition and Solubility
  • 38. Dipole Moment

  Colloidal

  • Lecture 1
  • Lecture 2
  • Lecture 3

  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

  Thermodynamics By Manjeet Sir

  • 1. Introduction
  • 2. Universe and Energy Transfer
  • 3. Thermodynamic Properties
  • 4. Maxwell's Relations
  • 5. Spontaneity Criteria
  • 6. Questions Related to Previous Lectures
  • 7. Thermodynamic Coefficients
  • 8. First Thermodynamic Equation
  • 9. Second Thermodynamic Equation
  • 10. Heat Capacity
  • 11. Relation Between Cp and Cv
  • 12. Questions on Heat Capacity
  • 13. Degree of Freedom
  • 14. Equipartition of Energy
  • 15. State Function and Path Function
  • 16. State Function and Path Function - 2
  • 17. Intensive & Extensive property and Internal Energy
  • 18. Enthalpy
  • 19. Work done
  • 20. Thermodynamic Processes
  • 21. Adiabatic Process
  • 22. Questions
  • 23. Joule Thomson Effect
  • 24. Carnot Cycle - I
  • 25. Carnot Cycle - II
  • 26. Entropy - I
  • 27. Entropy - II
  • 28. Entropy - III
  • 29. Clausius-Clapeyron Equation

  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