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Sl.No Chapter Name MP4 Download Transcript Download
1Lecture 1: IntroductionDownloadDownload
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2Lecture 2: Introduction to ConductionDownloadDownload
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3Lecture 3: Energy BalanceDownloadDownload
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4Lecture 4: 1D Steadystate Conduction - Resistance ConceptDownloadDownload
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5Lecture 5: Resistances in Composite Wall CaseDownloadDownload
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6Lecture 6: Resistances in Radial SystemsDownloadDownload
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7Lecture 7: Heat Generation I Plane and Cylindrical WallDownloadDownload
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8Lecture 8: Heat Generation - II Problem; Introduction to Extended SurfacesDownloadDownload
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9Lecture 9: Extended Surfaces - I General FormulationDownloadDownload
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10Lecture 10: Extended Surfaces II - Fixed Cross-section AreaDownloadDownload
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11Lecture 11: Extended Surfaces III - Varying Cross-section AreaDownloadDownload
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12Lecture 12: 2D Plane WallDownloadDownload
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13Lecture 13: Transient Analyses I : Lumped Capacitance MethodDownloadDownload
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14Lecture 14: Transient Analyses II : Full MethodDownloadDownload
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15Lecture 15: Transient Analyses : Semi-infinite CaseDownloadDownload
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16Lecture 16: Introduction to Convective Heat TransferDownloadDownload
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17Lecture 17: Heat and Mass Transport CoefficientsDownloadDownload
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18Lecture 18: Boundary Layer : Momentum, Thermal and ConcentrationDownloadDownload
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19Lecture 19: Laminar and Turbulent Flows; Momentum BalanceDownloadDownload
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20Lecture 20: Energy and Mass Balances; Boundary Layer ApproximationsDownloadDownload
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21Lecture 21: Order of Magnitude AnalysisDownloadDownload
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22Lecture 22: Transport CoefficientsDownloadDownload
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23Lecture 23: Relationship between Momentum, Thermal & Concentration Boundary LayerDownloadDownload
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24Lecture 24: Reynolds and Chilton-Colburn AnalogiesDownloadDownload
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25Lecture 25: Forced Convection : IntroductionDownloadDownload
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26Lecture 26: Flow Past Flat Plate I - Method of BlasiusDownloadDownload
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27Lecture 27: Flow Past Flat Plate II - Correlations for Heat and Mass TransportDownloadDownload
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28Lecture 28: Flow Past CylindersDownloadDownload
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29Lecture 29: Flow through Pipes IDownloadDownload
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30Lecture 30: Flow through Pipes II DownloadDownload
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31Lecture 31: Flow through Pipes IIIDownloadDownload
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32Lecture 32: Flow through Pipes IV - Mixing-cup TemperatureDownloadDownload
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33Lecture 33: Flow through Pipes V - Log mean Temperature DifferenceDownloadDownload
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34Lecture 34: Flow through Pipes VI - Correlations for Laminar and Turbulent ConditionsDownloadDownload
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35Lecture 35: Example problems : Forced ConvectionDownloadDownload
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36Lecture 36: Introduction to Free/Natural ConvectionDownloadDownload
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37Lecture 37: Heated Plate in a Quiescent Fluid - IDownloadDownload
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38Lecture 38: Heated Plate in a Quiescent Fluid - IIDownloadDownload
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39Lecture 39: Boiling IDownloadDownload
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40Lecture 40: Boiling IIDownloadDownload
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41Lecture 41: Condensation : IDownloadDownload
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42Lecture 42: Condensation : IIDownloadDownload
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43Lecture 43: Radiation : IntroductionDownloadDownload
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44Lecture 44: Spectral IntensityDownloadDownload
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45Lecture 45: Radiation : Spectral properties, BlackbodyDownloadDownload
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46Lecture 46: Properties of a BlackbodyDownloadDownload
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47Lecture 47: Surface AdsorptionDownloadDownload
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48Lecture 48: Kirchoff’s LawDownloadDownload
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49Lecture 49: Radiation Exchange - View FactorDownloadDownload
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50Lecture 50: View Factor ExamplesDownloadDownload
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51Lecture 51: View Factor - Inside Sphere Method, Blackbody Radiation ExchangeDownloadDownload
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52Lecture 52: Diffuse, Gray Surfaces in an EnclosureDownloadDownload
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53Lecture 53: Resistances - Oppenheim Matrix MethodDownloadDownload
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54Lecture 54: Resistances - ExamplesDownloadDownload
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55Lecture 55: More Examples: Volumetric RadiationDownloadDownload
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56Lecture 56: Introduction and ExamplesDownloadDownload
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57Lecture 57: Parallel Flow Heat ExchangersDownloadDownload
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58Lecture 58: LMTD IDownloadDownload
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59Lecture 59: Shell & Tube Heat ExchangersDownloadDownload
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60Lecture 60: Epsilon-NTU MethodDownloadDownload
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