NPTEL :: Multidisciplinary - NOC:Fundamental of Fluid Mechanics for Chemical and Biomedical Engineers

Modules / Lectures

Assignments

Module Name	Download
noc21_ge09_assignment_Week_1	noc21_ge09_assignment_Week_1
noc21_ge09_assignment_Week_10	noc21_ge09_assignment_Week_10
noc21_ge09_assignment_Week_11	noc21_ge09_assignment_Week_11
noc21_ge09_assignment_Week_12	noc21_ge09_assignment_Week_12
noc21_ge09_assignment_Week_2	noc21_ge09_assignment_Week_2
noc21_ge09_assignment_Week_3	noc21_ge09_assignment_Week_3
noc21_ge09_assignment_Week_4	noc21_ge09_assignment_Week_4
noc21_ge09_assignment_Week_5	noc21_ge09_assignment_Week_5
noc21_ge09_assignment_Week_6	noc21_ge09_assignment_Week_6
noc21_ge09_assignment_Week_7	noc21_ge09_assignment_Week_7
noc21_ge09_assignment_Week_8	noc21_ge09_assignment_Week_8
noc21_ge09_assignment_Week_9	noc21_ge09_assignment_Week_9

Sl.No	Chapter Name	MP4 Download
1	Lec 1 : Introduction	Download
2	Lec 2 : Fluid Mechanics and Chemical Engineering	Download
3	Lec 3 : Biomedical Applications of Fluid Mechanics	Download
4	Lec 4 : Vectors: A review	Download
5	Lec 5 : Introductory Concepts 1	Download
6	Lec 6 : Introductory Concepts 2	Download
7	Lec 7 : Flow Visualisation	Download
8	Lec 8 : Dimensional Analysis-Pi Theorem	Download
9	Lec 9 : Dimensional Analysis- Ipsen Method	Download
10	Lec 10 : Similitude	Download
11	Lec 11 : Pressure Distribution in a Static Fluid	Download
12	Lec 12 : Force of Submerged Surfaces	Download
13	Lec 13 : Buoyancy	Download
14	Lec 14 : Surface Tension	Download
15	Lec 15 : Reynolds Transport Theorem	Download
16	Lec 16 : Mass Conservation	Download
17	Lec 17 : Momentum Conservation I	Download
18	Lec 18 : Momentum Conservation II	Download
19	Lec 19 : Energy Conservation	Download
20	Lec 20 : Fluid Translation	Download
21	Lec 21 : Fluid Rotation and Deformation	Download
22	Lec 22 : Mass Conservation: Derivation	Download
23	Lec 23 : Mass Conservation: Cylindrical Coordinates	Download
24	Lec 24 : Navier Stokes Equations: Derivation	Download
25	Lec 25 : Flow Between Two Parallel Plates	Download
26	Lec 26 : Flow in a Falling Liquid Film	Download
27	Lec 27 : Fully-developed flow in a circular channel	Download
28	Lec 28 : Flow between two concentric cylinders	Download
29	Lec 29 : Lubrication Approximation	Download
30	Lec 30 : Creeping Flows	Download
31	Lec 31 : Equation of Motion in Streamline Coordinates	Download
32	Lec 32 : Irrotational Flow	Download
33	Lec 33 : Bernoulli's Equation and Flow Measurement	Download
34	Lec 34 : Boundary Layers	Download
35	Lec 35 : Momentum Integral Equation	Download
36	Lec 36 : Flow Separation and Drag	Download
37	Lec 37 : Introduction to Turbulence	Download
38	Lec 38 : Turbulent Flow in a Pipe	Download
39	Lec 39 : Turbulent Boundary Layers	Download
40	Lec 40 : Flow in Pipes: Major Losses	Download
41	Lec 41 : Flow in Pipes: Minor Losses	Download
42	Lec 42 : Flow in Pipes: Types of Problems	Download
43	Lec 43 : Cavitation and NPSH	Download

English

Sl.No	Chapter Name	English
1	Lec 1 : Introduction	Download To be verified
2	Lec 2 : Fluid Mechanics and Chemical Engineering	Download To be verified
3	Lec 3 : Biomedical Applications of Fluid Mechanics	Download To be verified
4	Lec 4 : Vectors: A review	Download To be verified
5	Lec 5 : Introductory Concepts 1	Download To be verified
6	Lec 6 : Introductory Concepts 2	Download To be verified
7	Lec 7 : Flow Visualisation	Download To be verified
8	Lec 8 : Dimensional Analysis-Pi Theorem	Download To be verified
9	Lec 9 : Dimensional Analysis- Ipsen Method	Download To be verified
10	Lec 10 : Similitude	Download To be verified
11	Lec 11 : Pressure Distribution in a Static Fluid	Download To be verified
12	Lec 12 : Force of Submerged Surfaces	Download To be verified
13	Lec 13 : Buoyancy	Download To be verified
14	Lec 14 : Surface Tension	Download To be verified
15	Lec 15 : Reynolds Transport Theorem	Download To be verified
16	Lec 16 : Mass Conservation	Download To be verified
17	Lec 17 : Momentum Conservation I	Download To be verified
18	Lec 18 : Momentum Conservation II	Download To be verified
19	Lec 19 : Energy Conservation	Download To be verified
20	Lec 20 : Fluid Translation	Download To be verified
21	Lec 21 : Fluid Rotation and Deformation	Download To be verified
22	Lec 22 : Mass Conservation: Derivation	Download To be verified
23	Lec 23 : Mass Conservation: Cylindrical Coordinates	Download To be verified
24	Lec 24 : Navier Stokes Equations: Derivation	PDF unavailable
25	Lec 25 : Flow Between Two Parallel Plates	PDF unavailable
26	Lec 26 : Flow in a Falling Liquid Film	PDF unavailable
27	Lec 27 : Fully-developed flow in a circular channel	PDF unavailable
28	Lec 28 : Flow between two concentric cylinders	PDF unavailable
29	Lec 29 : Lubrication Approximation	PDF unavailable
30	Lec 30 : Creeping Flows	PDF unavailable
31	Lec 31 : Equation of Motion in Streamline Coordinates	PDF unavailable
32	Lec 32 : Irrotational Flow	PDF unavailable
33	Lec 33 : Bernoulli's Equation and Flow Measurement	PDF unavailable
34	Lec 34 : Boundary Layers	PDF unavailable
35	Lec 35 : Momentum Integral Equation	PDF unavailable
36	Lec 36 : Flow Separation and Drag	PDF unavailable
37	Lec 37 : Introduction to Turbulence	PDF unavailable
38	Lec 38 : Turbulent Flow in a Pipe	PDF unavailable
39	Lec 39 : Turbulent Boundary Layers	PDF unavailable
40	Lec 40 : Flow in Pipes: Major Losses	PDF unavailable
41	Lec 41 : Flow in Pipes: Minor Losses	PDF unavailable
42	Lec 42 : Flow in Pipes: Types of Problems	PDF unavailable
43	Lec 43 : Cavitation and NPSH	PDF unavailable

Sl.No	Language	Book link
1	English	Not Available
2	Bengali	Not Available
3	Gujarati	Not Available
4	Hindi	Not Available
5	Kannada	Not Available
6	Malayalam	Not Available
7	Marathi	Not Available
8	Tamil	Not Available
9	Telugu	Not Available