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WEEK 4 | noc22-me31_Week4 |
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noc20_me22_assigment_1 | noc20_me22_assigment_1 |
noc20_me22_assigment_10 | noc20_me22_assigment_10 |
noc20_me22_assigment_11 | noc20_me22_assigment_11 |
noc20_me22_assigment_12 | noc20_me22_assigment_12 |
noc20_me22_assigment_13 | noc20_me22_assigment_13 |
noc20_me22_assigment_2 | noc20_me22_assigment_2 |
noc20_me22_assigment_3 | noc20_me22_assigment_3 |
noc20_me22_assigment_4 | noc20_me22_assigment_4 |
noc20_me22_assigment_5 | noc20_me22_assigment_5 |
noc20_me22_assigment_6 | noc20_me22_assigment_6 |
noc20_me22_assigment_7 | noc20_me22_assigment_7 |
noc20_me22_assigment_8 | noc20_me22_assigment_8 |
noc20_me22_assigment_9 | noc20_me22_assigment_9 |
Sl.No | Chapter Name | MP4 Download |
---|---|---|
1 | Lecture 1: Motivations of studying fluid mechanics | Download |
2 | Lecture 2: Macroscopic and microscopic point of views | Download |
3 | Lecture 3: Concept of traction vector | Download |
4 | Lecture 4: Cauchy's theorem | Download |
5 | Lecture 5: Concept of pressure in a fluid | Download |
6 | Lecture 6: Density, Bulk Modulus, Viscosity | Download |
7 | Lecture 7: Viscosity, Newtonian fluid | Download |
8 | Lecture 8: Kinematic viscosity, Reynolds number | Download |
9 | Lecture 9: Non-Newtonian fluids | Download |
10 | Lecture 10: Some illustrative examples solved. | Download |
11 | Lecture 11: Problems and Solutions | Download |
12 | Lecture 12: Surface Tension (Part I) | Download |
13 | Lecture 13: Surface Tension (Part II) | Download |
14 | Lecture 14: Governing equation of fluid statics | Download |
15 | Lecture 15: Manometers | Download |
16 | Lecture 16: Force on a surface immersed in fluid (Part I) | Download |
17 | Lecture 17: Force on a surface immersed in fluid (Part II) | Download |
18 | Lecture 18: Force on a surface immersed in fluid (Part III), Stability of solid bodies in fluid (Part I) | Download |
19 | Lecture 19: Stability of solid bodies in fluid (Part II) | Download |
20 | Lecture 20: Fluid under rigid body motion | Download |
21 | Lecture 21: Lagrangian and Eulerian approaches | Download |
22 | Lecture 22: Concept of different flow lines | Download |
23 | Lecture 23: Acceleration of fluid flow | Download |
24 | Lecture 24: Deformation of fluid elements (Part I) | Download |
25 | Lecture 25: Derivation of continuity equation | Download |
26 | Lecture 26 : Problems and Solutions | Download |
27 | Lecture 27 : Deformation of fluid elements (Part II) | Download |
28 | Lecture 28 : Deformation of fluid elements (Part III) | Download |
29 | Lecture 29 : Stream Function | Download |
30 | Lecture 30 : Circulation, Velocity Potential | Download |
31 | Lecture 31: Euler's equation | Download |
32 | Lecture 32: Bernoulli’s equation (Part I) | Download |
33 | Lecture 33: Bernoulli’s equation (Part II) | Download |
34 | Lecture 34: Bernoulli’s equation (Part III) | Download |
35 | Euler’s equation in streamline coordinates | Download |
36 | Lecture 36: Problems and Solutions | Download |
37 | Lecture 37: Problems and Solutions | Download |
38 | Lecture 38: Application of Bernoulli’s equation (Part I) | Download |
39 | Lecture 39: Application of Bernoulli’s equation (Part II) | Download |
40 | Lecture 40: Application of Bernoulli’s equation (Part III) | Download |
41 | Lecture 41: Reynolds Transport Theorem (RTT) | Download |
42 | Lecture 42: Application of RTT: Conservation of mass | Download |
43 | Lecture 43: Problems and Solutions | Download |
44 | Lecture 44: Problems and Solutions | Download |
45 | Lecture 45: Application of RTT: Conservation of linear momentum | Download |
46 | Lecture 46: Problems and Solutions | Download |
47 | Lecture 47: Problems and Solutions | Download |
48 | Lecture 48: Problems and Solutions | Download |
49 | Lecture 49: Application of RTT: Conservation of angular momentum | Download |
50 | Lecture 50 : Problems and Solutions | Download |
51 | Lecture 51: Navier-Stokes equation (Part I) | Download |
52 | Lecture 52: Navier-Stokes equation (Part II) | Download |
53 | Lecture 53: Navier-Stokes equation (Part III) | Download |
54 | Lecture 54: Navier-Stokes equation (Part IV) | Download |
55 | Lecture 55: Pipe Flow (Part I) | Download |
56 | Lecture 56: Pipe Flow (Part II) | Download |
57 | Lecture 57: Pipe Flow (Part III) | Download |
58 | Lecture 58: Pipe Flow (Part IV) | Download |
59 | Lecture 59: Principle of Similarity and Dynamical Analysis (Part I) | Download |
60 | Lecture 60: Principle of Similarity and Dynamical Analysis (Part II) | Download |
Sl.No | Chapter Name | English |
---|---|---|
1 | Lecture 1: Motivations of studying fluid mechanics | Download Verified |
2 | Lecture 2: Macroscopic and microscopic point of views | Download Verified |
3 | Lecture 3: Concept of traction vector | Download Verified |
4 | Lecture 4: Cauchy's theorem | Download Verified |
5 | Lecture 5: Concept of pressure in a fluid | Download Verified |
6 | Lecture 6: Density, Bulk Modulus, Viscosity | Download Verified |
7 | Lecture 7: Viscosity, Newtonian fluid | Download Verified |
8 | Lecture 8: Kinematic viscosity, Reynolds number | Download Verified |
9 | Lecture 9: Non-Newtonian fluids | Download Verified |
10 | Lecture 10: Some illustrative examples solved. | Download Verified |
11 | Lecture 11: Problems and Solutions | Download Verified |
12 | Lecture 12: Surface Tension (Part I) | Download Verified |
13 | Lecture 13: Surface Tension (Part II) | Download Verified |
14 | Lecture 14: Governing equation of fluid statics | Download Verified |
15 | Lecture 15: Manometers | Download Verified |
16 | Lecture 16: Force on a surface immersed in fluid (Part I) | Download Verified |
17 | Lecture 17: Force on a surface immersed in fluid (Part II) | Download Verified |
18 | Lecture 18: Force on a surface immersed in fluid (Part III), Stability of solid bodies in fluid (Part I) | Download Verified |
19 | Lecture 19: Stability of solid bodies in fluid (Part II) | Download Verified |
20 | Lecture 20: Fluid under rigid body motion | Download Verified |
21 | Lecture 21: Lagrangian and Eulerian approaches | Download Verified |
22 | Lecture 22: Concept of different flow lines | Download Verified |
23 | Lecture 23: Acceleration of fluid flow | Download Verified |
24 | Lecture 24: Deformation of fluid elements (Part I) | Download Verified |
25 | Lecture 25: Derivation of continuity equation | Download Verified |
26 | Lecture 26 : Problems and Solutions | Download Verified |
27 | Lecture 27 : Deformation of fluid elements (Part II) | Download Verified |
28 | Lecture 28 : Deformation of fluid elements (Part III) | Download Verified |
29 | Lecture 29 : Stream Function | Download Verified |
30 | Lecture 30 : Circulation, Velocity Potential | Download Verified |
31 | Lecture 31: Euler's equation | Download Verified |
32 | Lecture 32: Bernoulli’s equation (Part I) | Download Verified |
33 | Lecture 33: Bernoulli’s equation (Part II) | Download Verified |
34 | Lecture 34: Bernoulli’s equation (Part III) | Download Verified |
35 | Euler’s equation in streamline coordinates | Download Verified |
36 | Lecture 36: Problems and Solutions | Download Verified |
37 | Lecture 37: Problems and Solutions | Download Verified |
38 | Lecture 38: Application of Bernoulli’s equation (Part I) | Download Verified |
39 | Lecture 39: Application of Bernoulli’s equation (Part II) | Download Verified |
40 | Lecture 40: Application of Bernoulli’s equation (Part III) | Download Verified |
41 | Lecture 41: Reynolds Transport Theorem (RTT) | Download Verified |
42 | Lecture 42: Application of RTT: Conservation of mass | Download Verified |
43 | Lecture 43: Problems and Solutions | Download Verified |
44 | Lecture 44: Problems and Solutions | Download Verified |
45 | Lecture 45: Application of RTT: Conservation of linear momentum | Download Verified |
46 | Lecture 46: Problems and Solutions | Download Verified |
47 | Lecture 47: Problems and Solutions | Download Verified |
48 | Lecture 48: Problems and Solutions | Download Verified |
49 | Lecture 49: Application of RTT: Conservation of angular momentum | Download Verified |
50 | Lecture 50 : Problems and Solutions | Download Verified |
51 | Lecture 51: Navier-Stokes equation (Part I) | Download Verified |
52 | Lecture 52: Navier-Stokes equation (Part II) | Download Verified |
53 | Lecture 53: Navier-Stokes equation (Part III) | Download Verified |
54 | Lecture 54: Navier-Stokes equation (Part IV) | Download Verified |
55 | Lecture 55: Pipe Flow (Part I) | Download Verified |
56 | Lecture 56: Pipe Flow (Part II) | Download Verified |
57 | Lecture 57: Pipe Flow (Part III) | Download Verified |
58 | Lecture 58: Pipe Flow (Part IV) | Download Verified |
59 | Lecture 59: Principle of Similarity and Dynamical Analysis (Part I) | Download Verified |
60 | Lecture 60: Principle of Similarity and Dynamical Analysis (Part II) | Download Verified |
Sl.No | Chapter Name | Gujarati |
---|---|---|
1 | Lecture 1: Motivations of studying fluid mechanics | Download |
2 | Lecture 2: Macroscopic and microscopic point of views | Download |
3 | Lecture 3: Concept of traction vector | Download |
4 | Lecture 4: Cauchy's theorem | Download |
5 | Lecture 5: Concept of pressure in a fluid | Download |
6 | Lecture 6: Density, Bulk Modulus, Viscosity | Download |
7 | Lecture 7: Viscosity, Newtonian fluid | Download |
8 | Lecture 8: Kinematic viscosity, Reynolds number | Download |
9 | Lecture 9: Non-Newtonian fluids | Download |
10 | Lecture 10: Some illustrative examples solved. | Download |
11 | Lecture 11: Problems and Solutions | Download |
12 | Lecture 12: Surface Tension (Part I) | Download |
13 | Lecture 13: Surface Tension (Part II) | Download |
14 | Lecture 14: Governing equation of fluid statics | Download |
15 | Lecture 15: Manometers | Download |
16 | Lecture 16: Force on a surface immersed in fluid (Part I) | Download |
17 | Lecture 17: Force on a surface immersed in fluid (Part II) | Download |
18 | Lecture 18: Force on a surface immersed in fluid (Part III), Stability of solid bodies in fluid (Part I) | Download |
19 | Lecture 19: Stability of solid bodies in fluid (Part II) | Download |
20 | Lecture 20: Fluid under rigid body motion | Download |
21 | Lecture 21: Lagrangian and Eulerian approaches | Download |
22 | Lecture 22: Concept of different flow lines | Download |
23 | Lecture 23: Acceleration of fluid flow | Download |
24 | Lecture 24: Deformation of fluid elements (Part I) | Download |
25 | Lecture 25: Derivation of continuity equation | Download |
26 | Lecture 26 : Problems and Solutions | Download |
27 | Lecture 27 : Deformation of fluid elements (Part II) | Download |
28 | Lecture 28 : Deformation of fluid elements (Part III) | Download |
29 | Lecture 29 : Stream Function | Download |
30 | Lecture 30 : Circulation, Velocity Potential | Download |
31 | Lecture 31: Euler's equation | Download |
32 | Lecture 32: Bernoulli’s equation (Part I) | Download |
33 | Lecture 33: Bernoulli’s equation (Part II) | Download |
34 | Lecture 34: Bernoulli’s equation (Part III) | Download |
35 | Euler’s equation in streamline coordinates | Download |
36 | Lecture 36: Problems and Solutions | Download |
37 | Lecture 37: Problems and Solutions | Download |
38 | Lecture 38: Application of Bernoulli’s equation (Part I) | Download |
39 | Lecture 39: Application of Bernoulli’s equation (Part II) | Download |
40 | Lecture 40: Application of Bernoulli’s equation (Part III) | Download |
41 | Lecture 41: Reynolds Transport Theorem (RTT) | Download |
42 | Lecture 42: Application of RTT: Conservation of mass | Download |
43 | Lecture 43: Problems and Solutions | Download |
44 | Lecture 44: Problems and Solutions | Download |
45 | Lecture 45: Application of RTT: Conservation of linear momentum | Download |
46 | Lecture 46: Problems and Solutions | Download |
47 | Lecture 47: Problems and Solutions | Download |
48 | Lecture 48: Problems and Solutions | Download |
49 | Lecture 49: Application of RTT: Conservation of angular momentum | Download |
50 | Lecture 50 : Problems and Solutions | Download |
51 | Lecture 51: Navier-Stokes equation (Part I) | Download |
52 | Lecture 52: Navier-Stokes equation (Part II) | Download |
53 | Lecture 53: Navier-Stokes equation (Part III) | Download |
54 | Lecture 54: Navier-Stokes equation (Part IV) | Download |
55 | Lecture 55: Pipe Flow (Part I) | Download |
56 | Lecture 56: Pipe Flow (Part II) | Download |
57 | Lecture 57: Pipe Flow (Part III) | Download |
58 | Lecture 58: Pipe Flow (Part IV) | Download |
59 | Lecture 59: Principle of Similarity and Dynamical Analysis (Part I) | Download |
60 | Lecture 60: Principle of Similarity and Dynamical Analysis (Part II) | Download |
Sl.No | Chapter Name | Hindi |
---|---|---|
1 | Lecture 1: Motivations of studying fluid mechanics | Download |
2 | Lecture 2: Macroscopic and microscopic point of views | Download |
3 | Lecture 3: Concept of traction vector | Download |
4 | Lecture 4: Cauchy's theorem | Download |
5 | Lecture 5: Concept of pressure in a fluid | Download |
6 | Lecture 6: Density, Bulk Modulus, Viscosity | Download |
7 | Lecture 7: Viscosity, Newtonian fluid | Download |
8 | Lecture 8: Kinematic viscosity, Reynolds number | Download |
9 | Lecture 9: Non-Newtonian fluids | Download |
10 | Lecture 10: Some illustrative examples solved. | Download |
11 | Lecture 11: Problems and Solutions | Download |
12 | Lecture 12: Surface Tension (Part I) | Download |
13 | Lecture 13: Surface Tension (Part II) | Download |
14 | Lecture 14: Governing equation of fluid statics | Download |
15 | Lecture 15: Manometers | Download |
16 | Lecture 16: Force on a surface immersed in fluid (Part I) | Download |
17 | Lecture 17: Force on a surface immersed in fluid (Part II) | Download |
18 | Lecture 18: Force on a surface immersed in fluid (Part III), Stability of solid bodies in fluid (Part I) | Download |
19 | Lecture 19: Stability of solid bodies in fluid (Part II) | Download |
20 | Lecture 20: Fluid under rigid body motion | Download |
21 | Lecture 21: Lagrangian and Eulerian approaches | Download |
22 | Lecture 22: Concept of different flow lines | Download |
23 | Lecture 23: Acceleration of fluid flow | Download |
24 | Lecture 24: Deformation of fluid elements (Part I) | Download |
25 | Lecture 25: Derivation of continuity equation | Download |
26 | Lecture 26 : Problems and Solutions | Download |
27 | Lecture 27 : Deformation of fluid elements (Part II) | Download |
28 | Lecture 28 : Deformation of fluid elements (Part III) | Download |
29 | Lecture 29 : Stream Function | Download |
30 | Lecture 30 : Circulation, Velocity Potential | Download |
31 | Lecture 31: Euler's equation | Download |
32 | Lecture 32: Bernoulli’s equation (Part I) | Download |
33 | Lecture 33: Bernoulli’s equation (Part II) | Download |
34 | Lecture 34: Bernoulli’s equation (Part III) | Download |
35 | Euler’s equation in streamline coordinates | Download |
36 | Lecture 36: Problems and Solutions | Download |
37 | Lecture 37: Problems and Solutions | Download |
38 | Lecture 38: Application of Bernoulli’s equation (Part I) | Download |
39 | Lecture 39: Application of Bernoulli’s equation (Part II) | Download |
40 | Lecture 40: Application of Bernoulli’s equation (Part III) | Download |
41 | Lecture 41: Reynolds Transport Theorem (RTT) | Download |
42 | Lecture 42: Application of RTT: Conservation of mass | Download |
43 | Lecture 43: Problems and Solutions | Download |
44 | Lecture 44: Problems and Solutions | Download |
45 | Lecture 45: Application of RTT: Conservation of linear momentum | Download |
46 | Lecture 46: Problems and Solutions | Download |
47 | Lecture 47: Problems and Solutions | Download |
48 | Lecture 48: Problems and Solutions | Download |
49 | Lecture 49: Application of RTT: Conservation of angular momentum | Download |
50 | Lecture 50 : Problems and Solutions | Download |
51 | Lecture 51: Navier-Stokes equation (Part I) | Download |
52 | Lecture 52: Navier-Stokes equation (Part II) | Download |
53 | Lecture 53: Navier-Stokes equation (Part III) | Download |
54 | Lecture 54: Navier-Stokes equation (Part IV) | Download |
55 | Lecture 55: Pipe Flow (Part I) | Download |
56 | Lecture 56: Pipe Flow (Part II) | Download |
57 | Lecture 57: Pipe Flow (Part III) | Download |
58 | Lecture 58: Pipe Flow (Part IV) | Download |
59 | Lecture 59: Principle of Similarity and Dynamical Analysis (Part I) | Download |
60 | Lecture 60: Principle of Similarity and Dynamical Analysis (Part II) | Download |
Sl.No | Chapter Name | Tamil |
---|---|---|
1 | Lecture 1: Motivations of studying fluid mechanics | Download |
2 | Lecture 2: Macroscopic and microscopic point of views | Download |
3 | Lecture 3: Concept of traction vector | Download |
4 | Lecture 4: Cauchy's theorem | Download |
5 | Lecture 5: Concept of pressure in a fluid | Download |
6 | Lecture 6: Density, Bulk Modulus, Viscosity | Download |
7 | Lecture 7: Viscosity, Newtonian fluid | Download |
8 | Lecture 8: Kinematic viscosity, Reynolds number | Download |
9 | Lecture 9: Non-Newtonian fluids | Download |
10 | Lecture 10: Some illustrative examples solved. | Download |
11 | Lecture 11: Problems and Solutions | Download |
12 | Lecture 12: Surface Tension (Part I) | Download |
13 | Lecture 13: Surface Tension (Part II) | Download |
14 | Lecture 14: Governing equation of fluid statics | Download |
15 | Lecture 15: Manometers | Download |
16 | Lecture 16: Force on a surface immersed in fluid (Part I) | Download |
17 | Lecture 17: Force on a surface immersed in fluid (Part II) | Download |
18 | Lecture 18: Force on a surface immersed in fluid (Part III), Stability of solid bodies in fluid (Part I) | Download |
19 | Lecture 19: Stability of solid bodies in fluid (Part II) | Download |
20 | Lecture 20: Fluid under rigid body motion | Download |
21 | Lecture 21: Lagrangian and Eulerian approaches | Download |
22 | Lecture 22: Concept of different flow lines | Download |
23 | Lecture 23: Acceleration of fluid flow | Download |
24 | Lecture 24: Deformation of fluid elements (Part I) | Download |
25 | Lecture 25: Derivation of continuity equation | Download |
26 | Lecture 26 : Problems and Solutions | Download |
27 | Lecture 27 : Deformation of fluid elements (Part II) | Download |
28 | Lecture 28 : Deformation of fluid elements (Part III) | Download |
29 | Lecture 29 : Stream Function | Download |
30 | Lecture 30 : Circulation, Velocity Potential | Download |
31 | Lecture 31: Euler's equation | Download |
32 | Lecture 32: Bernoulli’s equation (Part I) | Download |
33 | Lecture 33: Bernoulli’s equation (Part II) | Download |
34 | Lecture 34: Bernoulli’s equation (Part III) | Download |
35 | Euler’s equation in streamline coordinates | Download |
36 | Lecture 36: Problems and Solutions | Download |
37 | Lecture 37: Problems and Solutions | Download |
38 | Lecture 38: Application of Bernoulli’s equation (Part I) | Download |
39 | Lecture 39: Application of Bernoulli’s equation (Part II) | Download |
40 | Lecture 40: Application of Bernoulli’s equation (Part III) | Download |
41 | Lecture 41: Reynolds Transport Theorem (RTT) | Download |
42 | Lecture 42: Application of RTT: Conservation of mass | Download |
43 | Lecture 43: Problems and Solutions | Download |
44 | Lecture 44: Problems and Solutions | Download |
45 | Lecture 45: Application of RTT: Conservation of linear momentum | Download |
46 | Lecture 46: Problems and Solutions | Download |
47 | Lecture 47: Problems and Solutions | Download |
48 | Lecture 48: Problems and Solutions | Download |
49 | Lecture 49: Application of RTT: Conservation of angular momentum | Download |
50 | Lecture 50 : Problems and Solutions | Download |
51 | Lecture 51: Navier-Stokes equation (Part I) | Download |
52 | Lecture 52: Navier-Stokes equation (Part II) | Download |
53 | Lecture 53: Navier-Stokes equation (Part III) | Download |
54 | Lecture 54: Navier-Stokes equation (Part IV) | Download |
55 | Lecture 55: Pipe Flow (Part I) | Download |
56 | Lecture 56: Pipe Flow (Part II) | Download |
57 | Lecture 57: Pipe Flow (Part III) | Download |
58 | Lecture 58: Pipe Flow (Part IV) | Download |
59 | Lecture 59: Principle of Similarity and Dynamical Analysis (Part I) | Download |
60 | Lecture 60: Principle of Similarity and Dynamical Analysis (Part II) | Download |
Sl.No | Chapter Name | Telugu |
---|---|---|
1 | Lecture 1: Motivations of studying fluid mechanics | Download |
2 | Lecture 2: Macroscopic and microscopic point of views | Download |
3 | Lecture 3: Concept of traction vector | Download |
4 | Lecture 4: Cauchy's theorem | Download |
5 | Lecture 5: Concept of pressure in a fluid | Download |
6 | Lecture 6: Density, Bulk Modulus, Viscosity | Download |
7 | Lecture 7: Viscosity, Newtonian fluid | Download |
8 | Lecture 8: Kinematic viscosity, Reynolds number | Download |
9 | Lecture 9: Non-Newtonian fluids | Download |
10 | Lecture 10: Some illustrative examples solved. | Download |
11 | Lecture 11: Problems and Solutions | Download |
12 | Lecture 12: Surface Tension (Part I) | Download |
13 | Lecture 13: Surface Tension (Part II) | Download |
14 | Lecture 14: Governing equation of fluid statics | Download |
15 | Lecture 15: Manometers | Download |
16 | Lecture 16: Force on a surface immersed in fluid (Part I) | Download |
17 | Lecture 17: Force on a surface immersed in fluid (Part II) | Download |
18 | Lecture 18: Force on a surface immersed in fluid (Part III), Stability of solid bodies in fluid (Part I) | Download |
19 | Lecture 19: Stability of solid bodies in fluid (Part II) | Download |
20 | Lecture 20: Fluid under rigid body motion | Download |
21 | Lecture 21: Lagrangian and Eulerian approaches | Download |
22 | Lecture 22: Concept of different flow lines | Download |
23 | Lecture 23: Acceleration of fluid flow | Download |
24 | Lecture 24: Deformation of fluid elements (Part I) | Download |
25 | Lecture 25: Derivation of continuity equation | Download |
26 | Lecture 26 : Problems and Solutions | Download |
27 | Lecture 27 : Deformation of fluid elements (Part II) | Download |
28 | Lecture 28 : Deformation of fluid elements (Part III) | Download |
29 | Lecture 29 : Stream Function | Download |
30 | Lecture 30 : Circulation, Velocity Potential | Download |
31 | Lecture 31: Euler's equation | Download |
32 | Lecture 32: Bernoulli’s equation (Part I) | Download |
33 | Lecture 33: Bernoulli’s equation (Part II) | Download |
34 | Lecture 34: Bernoulli’s equation (Part III) | Download |
35 | Euler’s equation in streamline coordinates | Download |
36 | Lecture 36: Problems and Solutions | Download |
37 | Lecture 37: Problems and Solutions | Download |
38 | Lecture 38: Application of Bernoulli’s equation (Part I) | Download |
39 | Lecture 39: Application of Bernoulli’s equation (Part II) | Download |
40 | Lecture 40: Application of Bernoulli’s equation (Part III) | Download |
41 | Lecture 41: Reynolds Transport Theorem (RTT) | Download |
42 | Lecture 42: Application of RTT: Conservation of mass | Download |
43 | Lecture 43: Problems and Solutions | Download |
44 | Lecture 44: Problems and Solutions | Download |
45 | Lecture 45: Application of RTT: Conservation of linear momentum | Download |
46 | Lecture 46: Problems and Solutions | Download |
47 | Lecture 47: Problems and Solutions | Download |
48 | Lecture 48: Problems and Solutions | Download |
49 | Lecture 49: Application of RTT: Conservation of angular momentum | Download |
50 | Lecture 50 : Problems and Solutions | Download |
51 | Lecture 51: Navier-Stokes equation (Part I) | Download |
52 | Lecture 52: Navier-Stokes equation (Part II) | Download |
53 | Lecture 53: Navier-Stokes equation (Part III) | Download |
54 | Lecture 54: Navier-Stokes equation (Part IV) | Download |
55 | Lecture 55: Pipe Flow (Part I) | Download |
56 | Lecture 56: Pipe Flow (Part II) | Download |
57 | Lecture 57: Pipe Flow (Part III) | Download |
58 | Lecture 58: Pipe Flow (Part IV) | Download |
59 | Lecture 59: Principle of Similarity and Dynamical Analysis (Part I) | Download |
60 | Lecture 60: Principle of Similarity and Dynamical Analysis (Part II) | Download |