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Lecture 1
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Chemical kinetics || Lecture 2
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Chemical kinetics || Lecture 3
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Chemical Kinetics || Lecture 5
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Chemical Kinetics || Lecture 4
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Chemical Kinetics || Lecture 7
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Chemical Kinetics || Lecture 6
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Chemical Kinetics || Lecture 8
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Chemical Kinetics || Lecture 9
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Chemical Kinetics || Lecture 10
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Chemical Kinetics || Lecture 11
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Chemical Kinetics || Lecture 14
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Chemical Kinetics || Lecture 12
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Chemical Kinetics || Lecture 13
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Chemical Kinetics || Lecture 15
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Chemical Kinetics || Lecture 16
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Chemical Kinetics || Lecture 17
Tutors
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Ravi Pandey
PROGRAM OVERVIEW
CURRICULUM
Chemical Kinetics
Quantum Chemistry
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Quantum Chemistry || Lecture 1
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Quantum Chemistry || Lecture 2
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Quantum Chemistry || Lecture 3
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Quantum Chemistry || Lecture 4
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Quantum Chemistry || Lecture 6
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Quantum Chemistry || Lecture 8
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Quantum Chemistry || Lecture 7
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Quantum Chemistry || Lecture 10
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Quantum Chemistry || Lecture 9
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Quantum Chemistry || Lecture 5
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Quantum Chemistry || Lecture 11
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Lecture 12
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Lecture 13
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Lecture 14
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Lecture 15
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Lecture 16
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Lecture 17
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Lecture 18
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Lecture 19
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Lecture 20
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Lecture 21
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Lecture 22
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Lecture 23
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Lecture 24
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Lecture 25
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Lecture 26
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Lecture 27
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Lecture 28
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Lecture 29
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Lecture 30
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Lecture 31
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Lecture 32
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Lecture 33
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Assignment 1 Solution
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Assignment 2 Solution
Photochemistry
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Photochemistry || Lecture 1
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Photochemistry || Lecture 2
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Photochemistry || Lecture 3
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Photochemistry || Lecture 4
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Photochemistry || Lecture 5
Spectroscopy
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Spectroscopy || Lecture 1
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Spectroscopy || Lecture 2
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Spectroscopy || Lecture 3
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Spectroscopy || Lecture 4
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Spectroscopy || Lecture 5
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Spectroscopy || Lecture 6A
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Spectroscopy || Lecture 6B
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Lecture 7
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Lecture 8
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Lecture 9
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Lecture 10
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Lecture 11
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Lecture 12
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Lecture 13
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Lecture 14
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Lecture 15
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Lecture 16
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Lecture 17
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Lecture 18
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Lecture 19
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Lecture 20
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Lecture 21
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Lecture 22
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Lecture 23
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Lecture 24
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Lecture 25
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Lecture 26
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Lecture 27
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Lecture 28
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Lecture 29
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Lecture 30
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Lecture 31
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Lecture 32
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Lecture 33
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Lecture 34
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Lecture 35
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Lecture 36
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Lecture 37
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Lecture 38
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Lecture 39
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Lecture 40
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Lecture 41
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Lecture 42
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Lecture 43
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Lecture 44
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Lecture 45
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Lecture 46
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Lecture 47
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Lecture 48
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Lecture 49
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Lecture 50
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Lecture 51
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Lecture 52
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Lecture 53
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Lecture 54
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Lecture 55
Surface Chemistry
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Surface Chemistry || Lecture 1
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Surface Chemistry || Lecture 2
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Surface Chemistry || Lecture 3
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Surface Chemistry || Lecture 5
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Surface Chemistry || Lecture 4
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
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Lecture 6
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Lecture 7
Electrochemistry
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Electrochemistry || Lecture 1
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Electrochemistry || Lecture 2
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Electrochemistry || Lecture 3
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Electrochemistry || Lecture 4
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Lecture 5A
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Lecture 5B
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Lecture 5C
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Electrochemistry || Lecture 6
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Electrochemistry || Lecture 7A
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Electrochemistry || Lecture 7B
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Electrochemistry || Lecture 8
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Electrochemistry || Lecture 9
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Electrochemistry || Lecture 10
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Electrochemistry || Lecture 11
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Electrochemistry || Lecture 12
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Electrochemistry || Lecture 13
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Electrochemistry || Lecture 14
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Electrochemistry || Lecture 15
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Lecture 16
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Electrochemistry || Lecture 17
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Electrochemistry || Lecture 18
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Electrochemistry || Lecture 19
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Electrochemistry || Lecture 20
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Electrochemistry || Lecture 21
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Electrochemistry || Lecture 22
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Electrochemistry || Lecture 23
Group Theory
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
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Lecture 6
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Lecture 7
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Lecture 8
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Lecture 9
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Lecture 10
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Lecture 11
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Lecture 12
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Lecture 13
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Lecture 14
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Lecture 15
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Lecture 16
Thermochemistry
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Lecture 1
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Lecture 2
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Lecture 3
Gaseous State
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
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Lecture 6
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Lecture 7
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Lecture 8
Phase Equilibrium
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
Mole Concepts
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
Redox Reactions
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
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Lecture 6
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Lecture 7
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Lecture 8
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Lecture 9
Statistical Thermodynamics
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
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Lecture 6
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Lecture 7
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Lecture 8
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Lecture 9
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Lecture 10
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Activated Complex Theory in form of Partition Function and its comparison with Collision
Solutions
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Lecture 2 - Concentration Terms
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3. Molarity and Molality
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4. Normality, n-Factor and Mole Fraction
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5. Solubility and Vapour Pressure
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6. Raoult's Law and Azeotropes
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7. Colligative Properties
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8. Osmotic Pressure
Chemical Equilibrium
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
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Lecture 6
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Lecture 7
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Lecture 8
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Lecture 9
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Lecture 10
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Lecture 11
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Lecture 12
Ionic Equilibrium
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
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Lecture 6
Solid State
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Lecture 14
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Lecture 15
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Lecture 16
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Lecture 17
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Lecture 18
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Lecture 19
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20. Non - Stoichiometry, Electronic and Impurity Defects
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21. Numericals
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22. Band Theory of Solids
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
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Lecture 6
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Lecture 7
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Lecture 8
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Lecture 9
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Lecture 10
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Lecture 11
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Lecture 12
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Lecture 13
Nuclear Chemistry
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4
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Lecture 5
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Lecture 6
Colloidal
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Lecture 1
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Lecture 2
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Lecture 3
Thermodynamics By Manjeet Sir
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1. Introduction
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2. Universe and Energy Transfer
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3. Thermodynamic Properties
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4. Maxwell's Relations
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5. Spontaneity Criteria
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6. Questions Related to Previous Lectures
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7. Thermodynamic Coefficients
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8. First Thermodynamic Equation
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9. Second Thermodynamic Equation
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10. Heat Capacity
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11. Relation Between Cp and Cv
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12. Questions on Heat Capacity
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13. Degree of Freedom
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14. Equipartition of Energy
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15. State Function and Path Function
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16. State Function and Path Function - 2
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17. Intensive & Extensive property and Internal Energy
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18. Enthalpy
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19. Work done
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20. Thermodynamic Processes
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21. Adiabatic Process
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22. Questions
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23. Joule Thomson Effect
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24. Carnot Cycle - I
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25. Carnot Cycle - II
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26. Entropy - I
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27. Entropy - II
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28. Entropy - III
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29. Clausius-Clapeyron Equation
Stereochemistry By Ashish Sir
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1. Introduction
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2. Stereoisomers
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3. Cahn–Ingold–Prelog (CIP) Rule
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4. Wedge-Dash Notation
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Lecture 5
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Lecture 6
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7. Newman to Fischer Projection
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8. Wedge-Dash to Sawhorse
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9. Stereochemistry of cyclic compound - I
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10. Stereochemistry of cyclic compound - II
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11. Conformational Analysis of Ethane and Butane
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12. Conformational Analysis of cyclo - hexane
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13. Optical Isomer - I
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14. Optical Isomer - II
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15. Geometrical Isomer - I
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16. Geometrical Isomer - II
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17. Number of Geometric Isomer
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18. Angle of Rotation and Specific Rotation
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19. Enantiomeric Excess
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20. Solved Questions
Reducing Reagents By Ashish Sir
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1. Introduction of Reagents
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2. Dissolving Metal Reduction and Wurtz Reaction
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3. Comparison between Pinacol coupling, Bouveault-Blanc Reduction and Birch Reduction
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4. Acyloin condensation, Birch Reduction and Bouveault-Blanc Reduction
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5. Birch Reduction
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Reagents Lecture 6
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Reagents Lecture 7
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Reagents Lecture 8
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Reagents Lecture 9
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Reagents Lecture 10
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Reagents Lecture 11
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Reagents Lecture 12
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Reagents Lecture 13
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Reagents Lecture 14
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Reagents Lecture 15
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Reagents Lecture 16
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Reagents Lecture 17
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Reagents Lecture 18
Oxidizing Reagents By Ashish Sir
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1. Oxidation of Alkenes
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2. Oxidation Stereochemistry
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3. Diol Formation
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4. Oxidation via KMnO4
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5. Cleavage of Diol and 1,2 Hetero Atom
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6. Ozonolysis
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7. Oxidation of Hydrocarbon
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8. Oxidation of Benzene
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9. Cr based oxidation
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10. Cr Based Oxidation - II
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11. Collins and Jones Reagent
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12. Swern Oxidation
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Lecture 13
Organometallic Reagents
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Lecture 1
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Lecture 2
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Lecture 3
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Lecture 4