Modules / Lectures
Module NameDownload


Sl.No Chapter Name MP4 Download
1Lecture 1 : Rate: the reaction velocityDownload
2Lecture 2 : Its elementary - rate law equationsDownload
3Lecture 3 : Arrhenius equation: what's the fuss about?Download
4Lecture 4 : Dance of atoms: from Newton to HamiltonDownload
5Lecture 5 : Boltzmann distribution: a story of Hamilton, Liouville and BoltzmannDownload
6Lecture 6 : Maxwell Boltzmann distribution: how fast are molecules moving?Download
7Lecture 7 : Kinetic theory of collisions: initial estimateDownload
8Lecture 8 : Boltzmann distribution and kinetic theory of collisionsDownload
9Lecture 9 : Kinetic theory of collisions: a discussionDownload
10Lecture 10 : Kinetic theory of collisions: reactive cross sectionDownload
11Lecture 11 : Problem solving session 1Download
12Lecture 12 : Problem solving session 2Download
13Lecture 13 : Kinetic theory of collision and equilibrium constantDownload
14Lecture 14 : Critique of kinetic theory of collisionsDownload
15Lecture 15 : Transition state theory and partition functionsDownload
16Lecture 16 : Partitioning the partition functionDownload
17Lecture 17 : Translating, rotating and vibrating quantum mechanicallyDownload
18Lecture 18 : Partition function and equilibrium constantDownload
19Lecture 19 : What is a transition state?Download
20Lecture 20 : A puzzle: cars on highwayDownload
21Lecture 21 : Transition state theory: derivation 1Download
22Lecture 22 : Practical calculation of TST rateDownload
23Lecture 23 : Calculating TST rate for the reaction H+HBrDownload
24Lecture 24 : Collision theory as a special case of TSTDownload
25Lecture 25 : TST: an intuitive proof in one dimensionDownload
26Lecture 26 : Rate as a flux across a dividing surfaceDownload
27Lecture 27 : Transition state theory: derivation 2 from dynamical perspectiveDownload
28Lecture 28 : Discussion of the assumptions of TSTDownload
29Lecture 29 : Thermodynamic formulation of TSTDownload
30Lecture 30 : Problem solving session 3Download
31Lecture 31 : Problem solving session 4Download
32Lecture 32 : Hills and valleys of potential energy surfacesDownload
33Lecture 33 : Molecular dynamics: rolling spheres on potential energy surfacesDownload
34Lecture 34 : Predictions from potential energy surfaces - rotational vs vibrational energiesDownload
35Lecture 35 : Free energy and potential of mean forceDownload
36Lecture 36 : Transmission coefficient and molecualr dynamicsDownload
37Lecture 37 : Problem solving session 5Download
38Lecture 38 : Microcanonical rate constant: putting balls in jarsDownload
39Lecture 39 : Microcanonical rate constant: RRK modelDownload
40Lecture 40 : Microcanonical rate constant: magic of Marcus - RRKM modelDownload
41Lecture 41 : Canonical TST from micrononical RRKM modelDownload
42Lecture 42 : Sum and density of statesDownload
43Lecture 43 : Unimolecular decay - revisitedDownload
44Lecture 44 : Unimolecular decay: RRK's approachDownload
45Lecture 45 : Unimolecular decay: RRKM's approachDownload
46Lecture 46 : Problem solving session 6Download

Sl.No Chapter Name English
1Lecture 1 : Rate: the reaction velocityDownload
To be verified
2Lecture 2 : Its elementary - rate law equationsDownload
To be verified
3Lecture 3 : Arrhenius equation: what's the fuss about?Download
To be verified
4Lecture 4 : Dance of atoms: from Newton to HamiltonDownload
To be verified
5Lecture 5 : Boltzmann distribution: a story of Hamilton, Liouville and BoltzmannDownload
To be verified
6Lecture 6 : Maxwell Boltzmann distribution: how fast are molecules moving?Download
To be verified
7Lecture 7 : Kinetic theory of collisions: initial estimateDownload
To be verified
8Lecture 8 : Boltzmann distribution and kinetic theory of collisionsDownload
To be verified
9Lecture 9 : Kinetic theory of collisions: a discussionDownload
To be verified
10Lecture 10 : Kinetic theory of collisions: reactive cross sectionDownload
To be verified
11Lecture 11 : Problem solving session 1Download
To be verified
12Lecture 12 : Problem solving session 2Download
To be verified
13Lecture 13 : Kinetic theory of collision and equilibrium constantDownload
To be verified
14Lecture 14 : Critique of kinetic theory of collisionsDownload
To be verified
15Lecture 15 : Transition state theory and partition functionsDownload
To be verified
16Lecture 16 : Partitioning the partition functionDownload
To be verified
17Lecture 17 : Translating, rotating and vibrating quantum mechanicallyDownload
To be verified
18Lecture 18 : Partition function and equilibrium constantDownload
To be verified
19Lecture 19 : What is a transition state?Download
To be verified
20Lecture 20 : A puzzle: cars on highwayDownload
To be verified
21Lecture 21 : Transition state theory: derivation 1Download
To be verified
22Lecture 22 : Practical calculation of TST rateDownload
To be verified
23Lecture 23 : Calculating TST rate for the reaction H+HBrDownload
To be verified
24Lecture 24 : Collision theory as a special case of TSTDownload
To be verified
25Lecture 25 : TST: an intuitive proof in one dimensionDownload
To be verified
26Lecture 26 : Rate as a flux across a dividing surfacePDF unavailable
27Lecture 27 : Transition state theory: derivation 2 from dynamical perspectivePDF unavailable
28Lecture 28 : Discussion of the assumptions of TSTPDF unavailable
29Lecture 29 : Thermodynamic formulation of TSTPDF unavailable
30Lecture 30 : Problem solving session 3PDF unavailable
31Lecture 31 : Problem solving session 4PDF unavailable
32Lecture 32 : Hills and valleys of potential energy surfacesPDF unavailable
33Lecture 33 : Molecular dynamics: rolling spheres on potential energy surfacesPDF unavailable
34Lecture 34 : Predictions from potential energy surfaces - rotational vs vibrational energiesPDF unavailable
35Lecture 35 : Free energy and potential of mean forcePDF unavailable
36Lecture 36 : Transmission coefficient and molecualr dynamicsPDF unavailable
37Lecture 37 : Problem solving session 5PDF unavailable
38Lecture 38 : Microcanonical rate constant: putting balls in jarsPDF unavailable
39Lecture 39 : Microcanonical rate constant: RRK modelPDF unavailable
40Lecture 40 : Microcanonical rate constant: magic of Marcus - RRKM modelPDF unavailable
41Lecture 41 : Canonical TST from micrononical RRKM modelPDF unavailable
42Lecture 42 : Sum and density of statesPDF unavailable
43Lecture 43 : Unimolecular decay - revisitedPDF unavailable
44Lecture 44 : Unimolecular decay: RRK's approachPDF unavailable
45Lecture 45 : Unimolecular decay: RRKM's approachPDF unavailable
46Lecture 46 : Problem solving session 6PDF unavailable


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