Modules / Lectures
Module NameDownload
noc21_ge09_assignment_Week_1noc21_ge09_assignment_Week_1
noc21_ge09_assignment_Week_10noc21_ge09_assignment_Week_10
noc21_ge09_assignment_Week_11noc21_ge09_assignment_Week_11
noc21_ge09_assignment_Week_12noc21_ge09_assignment_Week_12
noc21_ge09_assignment_Week_2noc21_ge09_assignment_Week_2
noc21_ge09_assignment_Week_3noc21_ge09_assignment_Week_3
noc21_ge09_assignment_Week_4noc21_ge09_assignment_Week_4
noc21_ge09_assignment_Week_5noc21_ge09_assignment_Week_5
noc21_ge09_assignment_Week_6noc21_ge09_assignment_Week_6
noc21_ge09_assignment_Week_7noc21_ge09_assignment_Week_7
noc21_ge09_assignment_Week_8noc21_ge09_assignment_Week_8
noc21_ge09_assignment_Week_9noc21_ge09_assignment_Week_9


Sl.No Chapter Name MP4 Download
1Lec 1 : IntroductionDownload
2Lec 2 : Fluid Mechanics and Chemical EngineeringDownload
3Lec 3 : Biomedical Applications of Fluid MechanicsDownload
4Lec 4 : Vectors: A reviewDownload
5Lec 5 : Introductory Concepts 1Download
6Lec 6 : Introductory Concepts 2Download
7Lec 7 : Flow VisualisationDownload
8Lec 8 : Dimensional Analysis-Pi TheoremDownload
9Lec 9 : Dimensional Analysis- Ipsen MethodDownload
10Lec 10 : SimilitudeDownload
11Lec 11 : Pressure Distribution in a Static FluidDownload
12Lec 12 : Force of Submerged SurfacesDownload
13Lec 13 : BuoyancyDownload
14Lec 14 : Surface TensionDownload
15Lec 15 : Reynolds Transport TheoremDownload
16Lec 16 : Mass ConservationDownload
17Lec 17 : Momentum Conservation IDownload
18Lec 18 : Momentum Conservation IIDownload
19Lec 19 : Energy ConservationDownload
20Lec 20 : Fluid TranslationDownload
21Lec 21 : Fluid Rotation and DeformationDownload
22Lec 22 : Mass Conservation: DerivationDownload
23Lec 23 : Mass Conservation: Cylindrical CoordinatesDownload
24Lec 24 : Navier Stokes Equations: DerivationDownload
25Lec 25 : Flow Between Two Parallel PlatesDownload
26Lec 26 : Flow in a Falling Liquid FilmDownload
27Lec 27 : Fully-developed flow in a circular channelDownload
28Lec 28 : Flow between two concentric cylindersDownload
29Lec 29 : Lubrication ApproximationDownload
30Lec 30 : Creeping FlowsDownload
31Lec 31 : Equation of Motion in Streamline CoordinatesDownload
32Lec 32 : Irrotational FlowDownload
33Lec 33 : Bernoulli's Equation and Flow MeasurementDownload
34Lec 34 : Boundary LayersDownload
35Lec 35 : Momentum Integral EquationDownload
36Lec 36 : Flow Separation and DragDownload
37Lec 37 : Introduction to TurbulenceDownload
38Lec 38 : Turbulent Flow in a PipeDownload
39Lec 39 : Turbulent Boundary LayersDownload
40Lec 40 : Flow in Pipes: Major LossesDownload
41Lec 41 : Flow in Pipes: Minor LossesDownload
42Lec 42 : Flow in Pipes: Types of ProblemsDownload
43Lec 43 : Cavitation and NPSHDownload

Sl.No Chapter Name English
1Lec 1 : IntroductionDownload
To be verified
2Lec 2 : Fluid Mechanics and Chemical EngineeringDownload
To be verified
3Lec 3 : Biomedical Applications of Fluid MechanicsDownload
To be verified
4Lec 4 : Vectors: A reviewDownload
To be verified
5Lec 5 : Introductory Concepts 1Download
To be verified
6Lec 6 : Introductory Concepts 2Download
To be verified
7Lec 7 : Flow VisualisationDownload
To be verified
8Lec 8 : Dimensional Analysis-Pi TheoremDownload
To be verified
9Lec 9 : Dimensional Analysis- Ipsen MethodDownload
To be verified
10Lec 10 : SimilitudeDownload
To be verified
11Lec 11 : Pressure Distribution in a Static FluidDownload
To be verified
12Lec 12 : Force of Submerged SurfacesDownload
To be verified
13Lec 13 : BuoyancyDownload
To be verified
14Lec 14 : Surface TensionDownload
To be verified
15Lec 15 : Reynolds Transport TheoremDownload
To be verified
16Lec 16 : Mass ConservationDownload
To be verified
17Lec 17 : Momentum Conservation IDownload
To be verified
18Lec 18 : Momentum Conservation IIDownload
To be verified
19Lec 19 : Energy ConservationDownload
To be verified
20Lec 20 : Fluid TranslationDownload
To be verified
21Lec 21 : Fluid Rotation and DeformationDownload
To be verified
22Lec 22 : Mass Conservation: DerivationDownload
To be verified
23Lec 23 : Mass Conservation: Cylindrical CoordinatesDownload
To be verified
24Lec 24 : Navier Stokes Equations: DerivationPDF unavailable
25Lec 25 : Flow Between Two Parallel PlatesPDF unavailable
26Lec 26 : Flow in a Falling Liquid FilmPDF unavailable
27Lec 27 : Fully-developed flow in a circular channelPDF unavailable
28Lec 28 : Flow between two concentric cylindersPDF unavailable
29Lec 29 : Lubrication ApproximationPDF unavailable
30Lec 30 : Creeping FlowsPDF unavailable
31Lec 31 : Equation of Motion in Streamline CoordinatesPDF unavailable
32Lec 32 : Irrotational FlowPDF unavailable
33Lec 33 : Bernoulli's Equation and Flow MeasurementPDF unavailable
34Lec 34 : Boundary LayersPDF unavailable
35Lec 35 : Momentum Integral EquationPDF unavailable
36Lec 36 : Flow Separation and DragPDF unavailable
37Lec 37 : Introduction to TurbulencePDF unavailable
38Lec 38 : Turbulent Flow in a PipePDF unavailable
39Lec 39 : Turbulent Boundary LayersPDF unavailable
40Lec 40 : Flow in Pipes: Major LossesPDF unavailable
41Lec 41 : Flow in Pipes: Minor LossesPDF unavailable
42Lec 42 : Flow in Pipes: Types of ProblemsPDF unavailable
43Lec 43 : Cavitation and NPSHPDF unavailable


Sl.No Language Book link
1EnglishNot Available
2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available