Modules / Lectures
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Sl.No Chapter Name MP4 Download
1Lecture 1 : Basic IntroductionDownload
2Lecture 2 : Bohr Model and Beyond…Download
3Lecture 3 : The wave nature of matterDownload
4Lecture 4 : Ground Rules: Postulates of Quantum mechanics : Part IDownload
5Lecture 5 : Ground Rules: Postulates of Quantum mechanics : Part IIDownload
6Lecture 6 : Particle in a box: Part IDownload
7Lecture 7 : Particle in a box: Part IIDownload
8Lecture 8 : Particle in a box: Part IIIDownload
9Lecture 9 : Particle in a box: Uncertainity PricipleDownload
10Lecture 10 : Particle in a box: Uncertainity Priciple- ContinuedDownload
11Lecture 11 : Quantum Mechanical TunnelingDownload
12Lecture 12 : Harmonic Oscillator: Part 1Download
13Lecture 13 : Harmonic Oscillator: Part 2Download
14Lecture 14 : Harmonic Oscillator: Part 3Download
15Lecture 15 : Harmonic Oscillators: Wave Functions and Recursion formulaeDownload
16Lecture 16 : Harmonic Oscillators: Wave Functions and Recursion formulae…..ContinuedDownload
17Lecture 17 : Harmonic Oscillators: ConclusionsDownload
18Lecture 18 : Rigid Rotor: Part 1Download
19Lecture 19 : Rigid Rotor: Part 2Download
20Lecture 20 : Rigid Rotor: Part 3Download
21Lecture 21 : Polar Plots of Spherical HarmonicsDownload
22Lecture 22 : Angular MomentumDownload
23Lecture 23 : Angular Momentum…ContinuedDownload
24Lecture 24 : Hydrogen Atom: Schrodinger EquationDownload
25Lecture 25 : Hydrogen Atom: Schrodinger Equation….ContinuedDownload
26Lecture 26 : Hydrogen atom: Quantum numbersDownload
27Lecture 27 : Radial Probability distribution functionsDownload
28Lecture 28 : Hydrogen atom wavefunctions: s orbitalsDownload
29Lecture 29 : 2s orbitalDownload
30Lecture 30 : 2p orbitalsDownload
31Lecture 31 : 3pz and 3d orbitalsDownload
32Lecture 32 : Atomic orbitals and orbital approximationDownload
33Lecture 33 : Multi electron atomsDownload
34Lecture 34 : He atom wavefunctionDownload
35Lecture 35 : Excited states of many electron atomsDownload
36Lecture 36 : Introduction to Perturbation theoryDownload
37Lecture 37 : Scope of Perturbation theoryDownload
38Lecture 38 : Application of Perturbation theory: Anharmonic oscillatorDownload
39Lecture 39 : Higher order perturbationsDownload
40Lecture 40 : Perturbation theory for non-degenerate statesDownload
41Lecture 41 : Perturbation Theory for degenerate statesDownload
42Lecture 42 : Application of Perturbation Theory for degenerate StatesDownload
43Lecture 43 : Variation MethodDownload
44Lecture 44 : Variational Method- Continued….Download
45Lecture 45 : Variational calculations for Harmonic Oscillator and Particle in a BoxDownload
46Lecture 46 : Secular equations in Variational calculations Download
47Lecture 47 : Secular equations for particle in a boxDownload
48Lecture 48 : Variational calculation for particle in a box…..continuedDownload
49Lecture 49 : Perturbation theory for many electron atomsDownload
50Lecture 50 : Variational method for many electron atomsDownload
51Lecture 51 : Hartree-Fock Equations and Self Consistent FieldsDownload
52Lecture 52 : Hartree-Fock Equations for HeDownload
53Lecture 53 : Hartree-Fock Equations for He: Part2Download
54Lecture 54 : Electronic Wavefunctions of He atomDownload
55Lecture 55 : Valance Bond Theory and homonuclear diatomics: Part1Download
56Lecture 56 : Valance Bond Theory and homonuclear diatomics: Part2Download
57Lecture 57 : Molecular shape and hybrid orbitalsDownload
58Lecture 58 : sp2 hybridizationDownload
59Lecture 59 : sp3 hybridizationDownload
60Lecture 60 : Non-equivalent hybrid orbitalsDownload
61Lecture 61 : Molecular Orbital Theory for H2+Download
62Lecture 62 : Molecular orbital theory for homonuclear diatomic moleculesDownload
63Lecture 63 : Beyond Homonuclear diatomic moleculesDownload
64Lecture 64 : MOT for polyatomic moleculesDownload
65Lecture 65 : Huckel MOT-1Download
66Lecture 66 : Huckel MOT-2Download
67Lecture 67 : The last wordDownload

Sl.No Chapter Name English
1Lecture 1 : Basic IntroductionDownload
Verified
2Lecture 2 : Bohr Model and Beyond…Download
Verified
3Lecture 3 : The wave nature of matterDownload
Verified
4Lecture 4 : Ground Rules: Postulates of Quantum mechanics : Part IDownload
Verified
5Lecture 5 : Ground Rules: Postulates of Quantum mechanics : Part IIDownload
Verified
6Lecture 6 : Particle in a box: Part IDownload
Verified
7Lecture 7 : Particle in a box: Part IIDownload
Verified
8Lecture 8 : Particle in a box: Part IIIDownload
Verified
9Lecture 9 : Particle in a box: Uncertainity PricipleDownload
Verified
10Lecture 10 : Particle in a box: Uncertainity Priciple- ContinuedDownload
Verified
11Lecture 11 : Quantum Mechanical TunnelingDownload
Verified
12Lecture 12 : Harmonic Oscillator: Part 1Download
Verified
13Lecture 13 : Harmonic Oscillator: Part 2Download
Verified
14Lecture 14 : Harmonic Oscillator: Part 3Download
Verified
15Lecture 15 : Harmonic Oscillators: Wave Functions and Recursion formulaeDownload
Verified
16Lecture 16 : Harmonic Oscillators: Wave Functions and Recursion formulae…..ContinuedDownload
Verified
17Lecture 17 : Harmonic Oscillators: ConclusionsDownload
Verified
18Lecture 18 : Rigid Rotor: Part 1Download
Verified
19Lecture 19 : Rigid Rotor: Part 2Download
Verified
20Lecture 20 : Rigid Rotor: Part 3Download
Verified
21Lecture 21 : Polar Plots of Spherical HarmonicsDownload
Verified
22Lecture 22 : Angular MomentumDownload
Verified
23Lecture 23 : Angular Momentum…ContinuedDownload
Verified
24Lecture 24 : Hydrogen Atom: Schrodinger EquationDownload
Verified
25Lecture 25 : Hydrogen Atom: Schrodinger Equation….ContinuedDownload
Verified
26Lecture 26 : Hydrogen atom: Quantum numbersDownload
Verified
27Lecture 27 : Radial Probability distribution functionsDownload
Verified
28Lecture 28 : Hydrogen atom wavefunctions: s orbitalsDownload
Verified
29Lecture 29 : 2s orbitalDownload
Verified
30Lecture 30 : 2p orbitalsDownload
Verified
31Lecture 31 : 3pz and 3d orbitalsDownload
Verified
32Lecture 32 : Atomic orbitals and orbital approximationDownload
Verified
33Lecture 33 : Multi electron atomsDownload
Verified
34Lecture 34 : He atom wavefunctionDownload
Verified
35Lecture 35 : Excited states of many electron atomsDownload
Verified
36Lecture 36 : Introduction to Perturbation theoryDownload
Verified
37Lecture 37 : Scope of Perturbation theoryDownload
Verified
38Lecture 38 : Application of Perturbation theory: Anharmonic oscillatorDownload
Verified
39Lecture 39 : Higher order perturbationsDownload
Verified
40Lecture 40 : Perturbation theory for non-degenerate statesDownload
Verified
41Lecture 41 : Perturbation Theory for degenerate statesDownload
Verified
42Lecture 42 : Application of Perturbation Theory for degenerate StatesDownload
Verified
43Lecture 43 : Variation MethodDownload
Verified
44Lecture 44 : Variational Method- Continued….Download
Verified
45Lecture 45 : Variational calculations for Harmonic Oscillator and Particle in a BoxDownload
Verified
46Lecture 46 : Secular equations in Variational calculations Download
Verified
47Lecture 47 : Secular equations for particle in a boxDownload
Verified
48Lecture 48 : Variational calculation for particle in a box…..continuedDownload
Verified
49Lecture 49 : Perturbation theory for many electron atomsDownload
Verified
50Lecture 50 : Variational method for many electron atomsDownload
Verified
51Lecture 51 : Hartree-Fock Equations and Self Consistent FieldsPDF unavailable
52Lecture 52 : Hartree-Fock Equations for HePDF unavailable
53Lecture 53 : Hartree-Fock Equations for He: Part2PDF unavailable
54Lecture 54 : Electronic Wavefunctions of He atomPDF unavailable
55Lecture 55 : Valance Bond Theory and homonuclear diatomics: Part1Download
Verified
56Lecture 56 : Valance Bond Theory and homonuclear diatomics: Part2Download
Verified
57Lecture 57 : Molecular shape and hybrid orbitalsDownload
Verified
58Lecture 58 : sp2 hybridizationDownload
Verified
59Lecture 59 : sp3 hybridizationDownload
Verified
60Lecture 60 : Non-equivalent hybrid orbitalsPDF unavailable
61Lecture 61 : Molecular Orbital Theory for H2+PDF unavailable
62Lecture 62 : Molecular orbital theory for homonuclear diatomic moleculesPDF unavailable
63Lecture 63 : Beyond Homonuclear diatomic moleculesPDF unavailable
64Lecture 64 : MOT for polyatomic moleculesPDF unavailable
65Lecture 65 : Huckel MOT-1PDF unavailable
66Lecture 66 : Huckel MOT-2PDF unavailable
67Lecture 67 : The last wordPDF unavailable


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