| Module Name | Download |
|---|---|
| noc19_me15_Assignment1 | noc19_me15_Assignment1 |
| noc19_me15_Assignment10 | noc19_me15_Assignment10 |
| noc19_me15_Assignment11 | noc19_me15_Assignment11 |
| noc19_me15_Assignment12 | noc19_me15_Assignment12 |
| noc19_me15_Assignment13 | noc19_me15_Assignment13 |
| noc19_me15_Assignment2 | noc19_me15_Assignment2 |
| noc19_me15_Assignment3 | noc19_me15_Assignment3 |
| noc19_me15_Assignment4 | noc19_me15_Assignment4 |
| noc19_me15_Assignment5 | noc19_me15_Assignment5 |
| noc19_me15_Assignment6 | noc19_me15_Assignment6 |
| noc19_me15_Assignment7 | noc19_me15_Assignment7 |
| noc19_me15_Assignment8 | noc19_me15_Assignment8 |
| noc19_me15_Assignment9 | noc19_me15_Assignment9 |
| Sl.No | Chapter Name | MP4 Download |
|---|---|---|
| 1 | Lecture 1 : Lagrangian and Eulerian Approach, Types of fluid flow | Download |
| 2 | Lecture 2 : Streamlines, Streakline and Pathline | Download |
| 3 | Lecture 3 : Acceleration of fluid flow | Download |
| 4 | Lecture 4 : Deformation and Conservation of mass of fluid a element | Download |
| 5 | Lecture 5 : Angular deformation of a fluid element, vorticity & streamfunction and velocity potential | Download |
| 6 | Lecture 6 : Euler’s equation | Download |
| 7 | Lecture 7 : Bernoulli’s equation (Part I) | Download |
| 8 | Lecture 8: Kinematic viscosity, Reynolds number | Download |
| 9 | Lecture 9: Non-Newtonian fluids | Download |
| 10 | Lecture 10: Problems and Solutions | 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 : Derivation of Navier-Stokes equation (contd.) | Download |
| 17 | Lecture 17 : Fully developed flow between two parallel plates | 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 : Couette flow | Download |
| 20 | Lecture 20 : Flow with interfaces | Download |
| 21 | Lecture 21 : Thin film flow on an inclined plane and Hagen-Poiseuille flow | Download |
| 22 | Lecture 22 : Hagen-Poiseuille flow (contd.) | Download |
| 23 | Lecture 23 : Flow between two rotating cylinders | Download |
| 24 | Lecture 24 : Stokes 1st problem | Download |
| 25 | Lecture 25 : Stokes 2nd problem | Download |
| 26 | Lecture 26 : Introduction to turbulence: basic concepts | Download |
| 27 | Lecture 27 : Eddies | Download |
| 28 | Lecture 28 : Eddies (contd) and Vortex shredding | Download |
| 29 | Lecture 29 : Statistical description of turbulent flows | Download |
| 30 | Lecture 30 : Reynolds stress | Download |
| 31 | Lecture 31 : Reynolds averaged Navier Stokes equation (RANS) | 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 | Lecture 35: Euler’s equation in streamline coordinates | Download |
| 36 | Lecture 36 : Flow over a fat plate: Blasius equation | Download |
| 37 | Lecture 37 : Momentum integral method for boundary layer analysis | Download |
| 38 | Lecture 38 : Approximate solution of the momentum integral equation | Download |
| 39 | Lecture 39 : Displacement and Momentum thickness | Download |
| 40 | Lecture 40 : Illustrative examples | Download |
| 41 | Lecture 41 : Boundary layer separation | Download |
| 42 | Lecture 42 : Resultant force on a body immersed in a fluid under motion | Download |
| 43 | Lecture 43 : Potential flow | Download |
| 44 | Lecture 44 : Examples of Potential flow | Download |
| 45 | Lecture 45 : Some more examples of Potential flows, Lift and Drag force | Download |
| 46 | Lecture 46 : Applications of lift and drag force | Download |
| 47 | Lecture 47 : Some examples of flow past immersed bodies | Download |
| 48 | Lecture 48 : Sports Ball aerodynamics | Download |
| 49 | Lecture 49 : Introduction to compressible flows | Download |
| 50 | Lecture 50 : Significance of Mach number | 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 : Lagrangian and Eulerian Approach, Types of fluid flow | Download Verified |
| 2 | Lecture 2 : Streamlines, Streakline and Pathline | Download Verified |
| 3 | Lecture 3 : Acceleration of fluid flow | Download Verified |
| 4 | Lecture 4 : Deformation and Conservation of mass of fluid a element | Download Verified |
| 5 | Lecture 5 : Angular deformation of a fluid element, vorticity & streamfunction and velocity potential | Download Verified |
| 6 | Lecture 6 : Euler’s equation | Download Verified |
| 7 | Lecture 7 : Bernoulli’s equation (Part I) | Download Verified |
| 8 | Lecture 8: Kinematic viscosity, Reynolds number | Download Verified |
| 9 | Lecture 9: Non-Newtonian fluids | Download Verified |
| 10 | Lecture 10: Problems and Solutions | PDF unavailable |
| 11 | Lecture 11: Problems and Solutions | PDF unavailable |
| 12 | Lecture 12: Surface Tension (Part I) | PDF unavailable |
| 13 | Lecture 13: Surface Tension (Part II) | PDF unavailable |
| 14 | Lecture 14: Governing equation of fluid statics | PDF unavailable |
| 15 | Lecture 15: Manometers | PDF unavailable |
| 16 | Lecture 16 : Derivation of Navier-Stokes equation (contd.) | PDF unavailable |
| 17 | Lecture 17 : Fully developed flow between two parallel plates | PDF unavailable |
| 18 | Lecture 18: Force on a surface immersed in fluid (Part III), Stability of solid bodies in fluid (Part I) | PDF unavailable |
| 19 | Lecture 19 : Couette flow | PDF unavailable |
| 20 | Lecture 20 : Flow with interfaces | PDF unavailable |
| 21 | Lecture 21 : Thin film flow on an inclined plane and Hagen-Poiseuille flow | PDF unavailable |
| 22 | Lecture 22 : Hagen-Poiseuille flow (contd.) | PDF unavailable |
| 23 | Lecture 23 : Flow between two rotating cylinders | PDF unavailable |
| 24 | Lecture 24 : Stokes 1st problem | PDF unavailable |
| 25 | Lecture 25 : Stokes 2nd problem | PDF unavailable |
| 26 | Lecture 26 : Introduction to turbulence: basic concepts | PDF unavailable |
| 27 | Lecture 27 : Eddies | PDF unavailable |
| 28 | Lecture 28 : Eddies (contd) and Vortex shredding | PDF unavailable |
| 29 | Lecture 29 : Statistical description of turbulent flows | PDF unavailable |
| 30 | Lecture 30 : Reynolds stress | PDF unavailable |
| 31 | Lecture 31 : Reynolds averaged Navier Stokes equation (RANS) | PDF unavailable |
| 32 | Lecture 32: Bernoulli’s equation (Part I) | PDF unavailable |
| 33 | Lecture 33: Bernoulli’s equation (Part II) | PDF unavailable |
| 34 | Lecture 34: Bernoulli’s equation (Part III) | PDF unavailable |
| 35 | Lecture 35: Euler’s equation in streamline coordinates | PDF unavailable |
| 36 | Lecture 36 : Flow over a fat plate: Blasius equation | PDF unavailable |
| 37 | Lecture 37 : Momentum integral method for boundary layer analysis | PDF unavailable |
| 38 | Lecture 38 : Approximate solution of the momentum integral equation | PDF unavailable |
| 39 | Lecture 39 : Displacement and Momentum thickness | PDF unavailable |
| 40 | Lecture 40 : Illustrative examples | PDF unavailable |
| 41 | Lecture 41 : Boundary layer separation | PDF unavailable |
| 42 | Lecture 42 : Resultant force on a body immersed in a fluid under motion | PDF unavailable |
| 43 | Lecture 43 : Potential flow | PDF unavailable |
| 44 | Lecture 44 : Examples of Potential flow | PDF unavailable |
| 45 | Lecture 45 : Some more examples of Potential flows, Lift and Drag force | PDF unavailable |
| 46 | Lecture 46 : Applications of lift and drag force | PDF unavailable |
| 47 | Lecture 47 : Some examples of flow past immersed bodies | PDF unavailable |
| 48 | Lecture 48 : Sports Ball aerodynamics | PDF unavailable |
| 49 | Lecture 49 : Introduction to compressible flows | PDF unavailable |
| 50 | Lecture 50 : Significance of Mach number | PDF unavailable |
| 51 | Lecture 51 : Navier-Stokes equation-Part-I | PDF unavailable |
| 52 | Lecture 52 : Navier-Stokes equation-Part-II | PDF unavailable |
| 53 | Lecture 53 : Navier-Stokes equation-Part-III | PDF unavailable |
| 54 | Lecture 54 : Navier-Stokes equation-Part-IV | PDF unavailable |
| 55 | Lecture 55 : Pipe Flow-Part-I | PDF unavailable |
| 56 | Lecture 56 : Pipe Flow-Part-II | PDF unavailable |
| 57 | Lecture 57 : Pipe Flow-Part-III | PDF unavailable |
| 58 | Lecture 58 : Pipe Flow-Part-IV | PDF unavailable |
| 59 | Lecture 59 : Principle of Similarity and Dynamical Analysis-Part-I | PDF unavailable |
| 60 | Lecture 60:Principle of Similarity and Dynamical Analysis-Part-II | 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 |