Modules / Lectures

Sl.No Chapter Name English
1Lecture 1 : Frequency Domain Spectroscopy: An IntroductionDownload
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2Lecture 2 : Schematics of Instrumentation for FD SpectroscopyDownload
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3Lecture 3 : Sensitivity Light Collection and Signal to Noise RatioDownload
To be verified
4Lecture 4 : Time Domain SpectroscopyDownload
To be verified
5Lecture 5 : Frequency Modulation for Fourier Transform SpectroscopyDownload
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6Lecture 6 : Rigid Rotor Model for Diatomic MoleculesDownload
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7Lecture 7 : Recapitulation of Quantum MechanicsDownload
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8Lecture 8 : Conditions for Microwave Activity-IDownload
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9Lecture 9 : Conditions for Microwave Activity-IIDownload
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10Lecture 10 : Microwave Spectra: Diatomic MoleculesDownload
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11Lecture 11 : Simple Harmonic OscillatorDownload
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12Lecture 12 : Selection RuleDownload
To be verified
13Lecture 13 : High Resolution IR SpectraDownload
To be verified
14Lecture 14 : Anharmonic Oscillator and Raman EffectDownload
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15Lecture 15 : Semi Classical Treatment: Radiation-MatterDownload
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16Lecture 16 : Time Dependent Perturbation TheoryDownload
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17Lecture 17 : Transition Moment IntegralDownload
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18Lecture 18 : Transition Probability and Natural LinewidthDownload
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19Lecture 19 : Einstein TreatmentDownload
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20Lecture 20 : Relationship Between Theoretical and Experimental QuantitiesDownload
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21Lecture 21 : Level System: Concluding Remark-IDownload
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22Lecture 22 : Level System: Concluding Remark-IIDownload
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23Lecture 23 : Laser BasicDownload
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24Lecture 24 : Applications of Laser in SpectroscopyDownload
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25Lecture 25 : Laser in Spectroscopy: Ultrafast DynamicsDownload
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26Lecture 26 : Snapshot of Bond BreakingDownload
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27Lecture 27 : Raman EffectDownload
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28Lecture 28 : Raman Spectroscopy: Quantum Theory of Raman EffectDownload
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29Lecture 29 : Raman Spectroscopy and Beyond Dipole ApproximationDownload
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30Lecture 30 : Symmetry in Chemistry: An IntroductionDownload
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31Lecture 31 : Symmetry Operations : Transformation MatricesDownload
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32Lecture 32 : Representations Reducible and IrreducibleDownload
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33Lecture 33 : Matrix Representation of Symmetry Point GroupDownload
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34Lecture 34 : Group Theory : Character TableDownload
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35Lecture 35 : Character Table : Compendium of Irreducible RepresentationsDownload
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36Lecture 36 : Mulliken Nomenclature, 2D Irreducible Representations and BasesDownload
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37Lecture 37 : Character Tables for Different Symmetry Point GroupsDownload
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38Lecture 38 : Wave Functions as BasisDownload
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39Lecture 39 : Symmetry of Atomic and Molecular OrbitalsDownload
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40Lecture 40 : Polyatomic Molecules : Normal Modes of VibrationDownload
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41Lecture 41 : Determination of Symmetries of Normal Modes of Vibration-IDownload
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42Lecture 42 : Determination of Symmetries of Normal Modes of Vibration-IIDownload
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43Lecture 43 : A Shortcut to Symmetry of Normal ModesDownload
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44Lecture 44 : Normal Modes : Internal Motion IR and Raman ActivityDownload
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45Lecture 45 : IR and Raman Activity-IDownload
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46Lecture 46 : IR and Raman Activity-IIDownload
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47Lecture 47 : Electronic Spectroscopy : IntroductionDownload
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48Lecture 48 : Electronic SpectraDownload
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49Lecture 49 : Rotational Fine StructureDownload
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50Lecture 50 : Symmetry of Electronic StatesDownload
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51Lecture 51 : Electronic States of OxygenDownload
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52Lecture 52 : Electronic States and Transitions of BenzeneDownload
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53Lecture 53 : Vibronic CouplingDownload
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54Lecture 54 : Electronic Spectrum of BenzeneDownload
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55Lecture 55 : Basics of NMR SpectroscopyDownload
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56Lecture 56 : Basics of NMR Spectroscopy:IIDownload
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57Lecture 57 : Spin Spin Coupling- AX systemsDownload
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58Lecture 58 : Coupling in A2 systemsDownload
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59Lecture 59 : Coupling in A2 systems (Continued)Download
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60Lecture 60 : NMR: Spectra & Measurement, FT NMR 900 PulsesDownload
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61Lecture 61 : FT NMR 1800 Pulses & Relaxation PhenomenonDownload
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62Lecture 62 : Relaxation Phenomenon: Inversion RecoveryDownload
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63Lecture 63 : No Splitting for A2 SystemsDownload
To be verified


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