Modules / Lectures


Sl.No Chapter Name MP4 Download
1Week 1-Lecture 1 : Introduction to quantum theoryDownload
2Week 1-Lecture 2 : Schrodinger’s theoryDownload
3Week 1-Lecture 3 : Laws of quantum mechanicsDownload
4Week 1-Lecture 4 : Wave functionsDownload
5Week 1-Lecture 5 : Quantum mechanics of a free particleDownload
6Week 1-Lecture 6 : Particle in 1D boxDownload
7Week 1-Lecture 7 : Particle in 2D boxDownload
8Week 1-Lecture 8 : Spherical polar coordinates & angular momentumDownload
9Week 2-Lecture 9 : Developing Hydrogen atom orbitals 1Download
10Week 2-Lecture 10 : Developing Hydrogen atom orbitals 2Download
11Week 2-Lecture 11 : Developing Hydrogen atom orbitals 3Download
12Week 2-Lecture 12 : Visualizing molecular orbitalsDownload
13Week 2-Lecture 13 : Molecular orbital theory 1: IntroductionDownload
14Week 2-Lecture 14 : Molecular orbital theory 2: Diatomic moleculesDownload
15Week 3-Lecture 15 : Molecular orbital theory 3: Homo-diatomic molecules-IDownload
16Week 3-Lecture 16 : Molecular orbital theory 4: Homo-diatomic molecules-IIDownload
17Week 3-Lecture 17 : Molecular orbital theory 5: Hetero-diatomic moleculesDownload
18Week 3-Lecture 18 : Molecular orbital theory 6: Polyatomic moleculesDownload
19Week 3-Lecture 19 : Molecular orbital theory 7: Ethylene (introduction to Huckel’s theory)-IDownload
20Week 3-Lecture 20 : Molecular orbital theory 8: Ethylene (introduction to Huckel’s theory)-IIDownload
21Week 3-Lecture 21 : Molecular orbital theory 9: Butadiene-IDownload
22Week 3-Lecture 22 : Molecular orbital theory 9: Butadiene-IIDownload
23Week 4-Lecture 23 : Concept of effective nuclear chargeDownload
24Week 4-Lecture 24 : Electronic configuration of elementsDownload
25Week 4-Lecture 25 : Properties of Elements (Size, IE, EA and EN)Download
26Week 4-Lecture 26 : PolarizabilityDownload
27Week 4-Lecture 27 : Hard soft acid baseDownload
28Week 4-Lecture 28 : Predicting molecular structures: VSEPR theoryDownload
29Week 5-Lecture 29 : Coordination Chemistry: 18 electron rule and VBTDownload
30Week 5-Lecture 30 : Crystal Field Theory: Octahedral ComplexDownload
31Week 5-Lecture 31 : Crystal Field Theory: Tetrahedral ComplexDownload
32Week 5-Lecture 32 : Crystal Field Theory: Octahedral vs. Tetrahedral ComplexDownload
33Week 5-Lecture 33 : Application of CFSE: Spinel and J-T DistortionDownload
34Week 6-Lecture 34 : Introduction to Molecular MagnetismDownload
35Week 6-Lecture 35 : Problem Solving ApproachDownload
36Week 6-Lecture 36 : MagnetismDownload
37Week 6-Lecture 37 : Spectroscopic Term SymbolDownload
38Week 6-Lecture 38 : Magnetic States of Matter: Paramagnetic, Ferro and AntiferromagneticDownload
39Week 6-Lecture 39 : Band structures of solid materialsDownload
40Week 6-Lecture 40 : Density of states and doping in semiconductorsDownload
41Week 7-Lecture 41 : Introduction to molecular spectroscopyDownload
42Week 7-Lecture 42 : Rotational spectroscopyDownload
43Week 7-Lecture 43 : Vibrational spectroscopyDownload
44Week 7-Lecture 44 : Electronic Spectroscopy -IDownload
45Week 7-Lecture 45 : Electronic Spectroscopy-IIDownload
46Week 7-Lecture 46 : Electronic Spectroscopy-IIIDownload
47Week 7-Lecture 47 : Fluorescence SpectroscopyDownload
48Week 8-Lecture 48 : Fundamentals of NMR spectroscopy and MRIDownload
49Week 8-Lecture 49 : Surface characterization techniquesDownload

Sl.No Chapter Name English
1Week 1-Lecture 1 : Introduction to quantum theoryDownload
Verified
2Week 1-Lecture 2 : Schrodinger’s theoryDownload
Verified
3Week 1-Lecture 3 : Laws of quantum mechanicsDownload
Verified
4Week 1-Lecture 4 : Wave functionsDownload
Verified
5Week 1-Lecture 5 : Quantum mechanics of a free particleDownload
Verified
6Week 1-Lecture 6 : Particle in 1D boxDownload
Verified
7Week 1-Lecture 7 : Particle in 2D boxDownload
Verified
8Week 1-Lecture 8 : Spherical polar coordinates & angular momentumPDF unavailable
9Week 2-Lecture 9 : Developing Hydrogen atom orbitals 1PDF unavailable
10Week 2-Lecture 10 : Developing Hydrogen atom orbitals 2PDF unavailable
11Week 2-Lecture 11 : Developing Hydrogen atom orbitals 3PDF unavailable
12Week 2-Lecture 12 : Visualizing molecular orbitalsPDF unavailable
13Week 2-Lecture 13 : Molecular orbital theory 1: IntroductionPDF unavailable
14Week 2-Lecture 14 : Molecular orbital theory 2: Diatomic moleculesPDF unavailable
15Week 3-Lecture 15 : Molecular orbital theory 3: Homo-diatomic molecules-IPDF unavailable
16Week 3-Lecture 16 : Molecular orbital theory 4: Homo-diatomic molecules-IIPDF unavailable
17Week 3-Lecture 17 : Molecular orbital theory 5: Hetero-diatomic moleculesPDF unavailable
18Week 3-Lecture 18 : Molecular orbital theory 6: Polyatomic moleculesPDF unavailable
19Week 3-Lecture 19 : Molecular orbital theory 7: Ethylene (introduction to Huckel’s theory)-IPDF unavailable
20Week 3-Lecture 20 : Molecular orbital theory 8: Ethylene (introduction to Huckel’s theory)-IIPDF unavailable
21Week 3-Lecture 21 : Molecular orbital theory 9: Butadiene-IPDF unavailable
22Week 3-Lecture 22 : Molecular orbital theory 9: Butadiene-IIPDF unavailable
23Week 4-Lecture 23 : Concept of effective nuclear chargePDF unavailable
24Week 4-Lecture 24 : Electronic configuration of elementsPDF unavailable
25Week 4-Lecture 25 : Properties of Elements (Size, IE, EA and EN)PDF unavailable
26Week 4-Lecture 26 : PolarizabilityPDF unavailable
27Week 4-Lecture 27 : Hard soft acid basePDF unavailable
28Week 4-Lecture 28 : Predicting molecular structures: VSEPR theoryPDF unavailable
29Week 5-Lecture 29 : Coordination Chemistry: 18 electron rule and VBTPDF unavailable
30Week 5-Lecture 30 : Crystal Field Theory: Octahedral ComplexPDF unavailable
31Week 5-Lecture 31 : Crystal Field Theory: Tetrahedral ComplexPDF unavailable
32Week 5-Lecture 32 : Crystal Field Theory: Octahedral vs. Tetrahedral ComplexPDF unavailable
33Week 5-Lecture 33 : Application of CFSE: Spinel and J-T DistortionPDF unavailable
34Week 6-Lecture 34 : Introduction to Molecular MagnetismPDF unavailable
35Week 6-Lecture 35 : Problem Solving ApproachPDF unavailable
36Week 6-Lecture 36 : MagnetismPDF unavailable
37Week 6-Lecture 37 : Spectroscopic Term SymbolPDF unavailable
38Week 6-Lecture 38 : Magnetic States of Matter: Paramagnetic, Ferro and AntiferromagneticPDF unavailable
39Week 6-Lecture 39 : Band structures of solid materialsPDF unavailable
40Week 6-Lecture 40 : Density of states and doping in semiconductorsPDF unavailable
41Week 7-Lecture 41 : Introduction to molecular spectroscopyPDF unavailable
42Week 7-Lecture 42 : Rotational spectroscopyPDF unavailable
43Week 7-Lecture 43 : Vibrational spectroscopyPDF unavailable
44Week 7-Lecture 44 : Electronic Spectroscopy -IPDF unavailable
45Week 7-Lecture 45 : Electronic Spectroscopy-IIPDF unavailable
46Week 7-Lecture 46 : Electronic Spectroscopy-IIIPDF unavailable
47Week 7-Lecture 47 : Fluorescence SpectroscopyPDF unavailable
48Week 8-Lecture 48 : Fundamentals of NMR spectroscopy and MRIPDF unavailable
49Week 8-Lecture 49 : Surface characterization techniquesPDF unavailable


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