Modules / Lectures


Sl.No Chapter Name MP4 Download
1Lec 1: Course contentsDownload
2Lec 2: Preliminary ConceptsDownload
3Lec 3: Introduction to Reynolds Transport TheoremDownload
4Lec 4: Derivation of Reynolds Transport Theorem - Part IDownload
5Lec 5: Derivation of Reynolds Transport Theorem - Part IIDownload
6Lec 6: Conservations LawsDownload
7Lec 7: Numerical ExamplesDownload
8Lec 8: Summary of Module 1Download
9Lec 9 : Atmospheric WaterDownload
10Lec 10 : Water Vapor DynamicsDownload
11Lec 11 : Precipitable Water in the Static Atmospheric ColumnDownload
12Lec 12 : Numerical Examples on Basic Atmospheric ParametersDownload
13Lec 13 : Precipitation-Types and FormationDownload
14Lec 14 : Terminal VelocityDownload
15Lec 15: Thunderstorm Cell ModelDownload
16Lec 16: Numerical Examples on Terminal Velocity and Thunderstorm CellDownload
17Lec 17: Forms of PrecipitationDownload
18Lec 18: Measurement of rainfallDownload
19Lec 19: Raingauge NetworkDownload
20Lec 20: Presentation of Rainfall DataDownload
21Lec 21: Analysis of Rainfall DataDownload
22Lec 22: Average Areal RainfallDownload
23Lec 23: EvaporationDownload
24Lec 24: Evaporation-Energy Balance MethodDownload
25Lec 25: Evaporation-Aerodynamic MethodDownload
26Lec 26: Evaporation-Combined MethodDownload
27Lec 27: Numerical Examples on EvaporationDownload
28Lec 28: Evaporation -Empirical methodDownload
29Lec 29: EvapotranspirationDownload
30Lec 30: Evapotranspiration-Numerical ExampleDownload
31Lec 31: Summaryof Module 2Download
32Lec 32: Subsurface WaterDownload
33Lec 33: 1-D Unsteady Unsaturated Flow EquationDownload
34Lec 34: InfiltrationDownload
35Lec 35: : Measurement of InfiltrationDownload
36Lec 36: Estimation of Infiltration-Empirical EquationsDownload
37Lec 37: Numerical examples - Infiltration estimation using empirical equationsDownload
38Lec 38: Estimation of Infiltration-Theoretical EquationDownload
39Lec 39: Infiltration-Green Ampt EquationDownload
40Lec 40: Ponding timeDownload
41Lec 41: Numerical Examples on Green Ampt Infiltration EquationDownload
42Lec 42: Summary-Module-IIIDownload
43Lec 43: Surface WaterDownload
44Lec 44: Excess Rainfall and Direct RunoffDownload
45Lec 45: Numerical Examples on Direct RunoffDownload
46Lec 46: Overland flowDownload
47Lec 47: Streamflow Measurement-IDownload
48Lec 48: Streamflow Measurement-IIDownload
49Lec 49: Representation of StreamflowDownload
50Lec 50: Numerical Examples on Streamflow MeasurementDownload
51Lec 51: Summary of Module-IVDownload
52Lec 52: Hydrologic Analysis-IntroductionDownload
53Lec 53: Linear System TheoryDownload
54Lec 54: Hydrograph Analysis-UHDownload
55Lec 55: Hydrograph Analysis-DRHDownload
56Lec 56: Numerical examples on UH and DRHDownload
57Lec 57: S-HydrographDownload
58Lec 58: Unit Hydrograph of Different DurationDownload
59Lec 59: Numerical examples UH of Different DurationDownload
60Lec 60: Instantaneous Unit HydrographDownload
61Lec 61: Instantaneous Unit Hydrograph-Nash's ModelDownload
62Lec 62: Numerical Examples on IUHDownload
63Lec 63: Synthetic Unit HydrographDownload
64Lec 64: SCS-Synthetic Unit HydrographDownload
65Lec 65: Numerical Examples on SUHDownload
66Lec 66: Hydrograph RoutingDownload
67Lec 67: Reservoir RoutingDownload
68Lec 68: Numerical Example on Reservoir RoutingDownload
69Lec 69: Hydrologic Channel RoutingDownload
70Lec 70: Numerical Examples on Channel RoutingDownload
71Lec 71: Summary of Module-VDownload
72Lec 72: Hydrologic Statistics-Preliminary ConceptsDownload
73Lec 73: Probability Distribution and Basic Descriptive StatisticsDownload
74Lec 74: Probabiity DistributionsDownload
75Lec 75: Frequency AnalysisDownload
76Lec 76: Exreme Value AnalysisDownload
77Lec 77: Summary of Module-VIDownload
78Lec 78: Hydrologic DesignDownload
79Lec 79: Numerical examples on probability and riskDownload
80Lec 80: Design StormDownload
81Lec 81: Design FloodDownload
82Lec 82: Summary of Module-VIIDownload
83Lec 83: Closure of Engineering HydrologyDownload

Sl.No Chapter Name English
1Lec 1: Course contentsDownload
Verified
2Lec 2: Preliminary ConceptsDownload
Verified
3Lec 3: Introduction to Reynolds Transport TheoremDownload
Verified
4Lec 4: Derivation of Reynolds Transport Theorem - Part IDownload
Verified
5Lec 5: Derivation of Reynolds Transport Theorem - Part IIDownload
Verified
6Lec 6: Conservations LawsDownload
Verified
7Lec 7: Numerical ExamplesDownload
Verified
8Lec 8: Summary of Module 1Download
Verified
9Lec 9 : Atmospheric WaterDownload
Verified
10Lec 10 : Water Vapor DynamicsDownload
Verified
11Lec 11 : Precipitable Water in the Static Atmospheric ColumnDownload
Verified
12Lec 12 : Numerical Examples on Basic Atmospheric ParametersDownload
Verified
13Lec 13 : Precipitation-Types and FormationDownload
Verified
14Lec 14 : Terminal VelocityDownload
Verified
15Lec 15: Thunderstorm Cell ModelDownload
Verified
16Lec 16: Numerical Examples on Terminal Velocity and Thunderstorm CellDownload
Verified
17Lec 17: Forms of PrecipitationDownload
Verified
18Lec 18: Measurement of rainfallDownload
Verified
19Lec 19: Raingauge NetworkDownload
Verified
20Lec 20: Presentation of Rainfall DataDownload
Verified
21Lec 21: Analysis of Rainfall DataDownload
Verified
22Lec 22: Average Areal RainfallDownload
Verified
23Lec 23: EvaporationDownload
Verified
24Lec 24: Evaporation-Energy Balance MethodDownload
Verified
25Lec 25: Evaporation-Aerodynamic MethodDownload
Verified
26Lec 26: Evaporation-Combined MethodDownload
Verified
27Lec 27: Numerical Examples on EvaporationDownload
Verified
28Lec 28: Evaporation -Empirical methodDownload
Verified
29Lec 29: EvapotranspirationDownload
Verified
30Lec 30: Evapotranspiration-Numerical ExampleDownload
Verified
31Lec 31: Summaryof Module 2Download
Verified
32Lec 32: Subsurface WaterPDF unavailable
33Lec 33: 1-D Unsteady Unsaturated Flow EquationPDF unavailable
34Lec 34: InfiltrationPDF unavailable
35Lec 35: : Measurement of InfiltrationPDF unavailable
36Lec 36: Estimation of Infiltration-Empirical EquationsPDF unavailable
37Lec 37: Numerical examples - Infiltration estimation using empirical equationsPDF unavailable
38Lec 38: Estimation of Infiltration-Theoretical EquationPDF unavailable
39Lec 39: Infiltration-Green Ampt EquationPDF unavailable
40Lec 40: Ponding timePDF unavailable
41Lec 41: Numerical Examples on Green Ampt Infiltration EquationPDF unavailable
42Lec 42: Summary-Module-IIIPDF unavailable
43Lec 43: Surface WaterPDF unavailable
44Lec 44: Excess Rainfall and Direct RunoffPDF unavailable
45Lec 45: Numerical Examples on Direct RunoffPDF unavailable
46Lec 46: Overland flowPDF unavailable
47Lec 47: Streamflow Measurement-IPDF unavailable
48Lec 48: Streamflow Measurement-IIPDF unavailable
49Lec 49: Representation of StreamflowPDF unavailable
50Lec 50: Numerical Examples on Streamflow MeasurementPDF unavailable
51Lec 51: Summary of Module-IVPDF unavailable
52Lec 52: Hydrologic Analysis-IntroductionPDF unavailable
53Lec 53: Linear System TheoryPDF unavailable
54Lec 54: Hydrograph Analysis-UHPDF unavailable
55Lec 55: Hydrograph Analysis-DRHPDF unavailable
56Lec 56: Numerical examples on UH and DRHPDF unavailable
57Lec 57: S-HydrographPDF unavailable
58Lec 58: Unit Hydrograph of Different DurationPDF unavailable
59Lec 59: Numerical examples UH of Different DurationPDF unavailable
60Lec 60: Instantaneous Unit HydrographPDF unavailable
61Lec 61: Instantaneous Unit Hydrograph-Nash's ModelPDF unavailable
62Lec 62: Numerical Examples on IUHPDF unavailable
63Lec 63: Synthetic Unit HydrographPDF unavailable
64Lec 64: SCS-Synthetic Unit HydrographPDF unavailable
65Lec 65: Numerical Examples on SUHPDF unavailable
66Lec 66: Hydrograph RoutingPDF unavailable
67Lec 67: Reservoir RoutingPDF unavailable
68Lec 68: Numerical Example on Reservoir RoutingPDF unavailable
69Lec 69: Hydrologic Channel RoutingPDF unavailable
70Lec 70: Numerical Examples on Channel RoutingPDF unavailable
71Lec 71: Summary of Module-VPDF unavailable
72Lec 72: Hydrologic Statistics-Preliminary ConceptsPDF unavailable
73Lec 73: Probability Distribution and Basic Descriptive StatisticsPDF unavailable
74Lec 74: Probabiity DistributionsPDF unavailable
75Lec 75: Frequency AnalysisPDF unavailable
76Lec 76: Exreme Value AnalysisPDF unavailable
77Lec 77: Summary of Module-VIPDF unavailable
78Lec 78: Hydrologic DesignPDF unavailable
79Lec 79: Numerical examples on probability and riskPDF unavailable
80Lec 80: Design StormPDF unavailable
81Lec 81: Design FloodPDF unavailable
82Lec 82: Summary of Module-VIIPDF unavailable
83Lec 83: Closure of Engineering HydrologyPDF unavailable


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