| Module Name | Download |
|---|---|
| Week_01_Assignment_1 | Week_01_Assignment_1 |
| Week_02_Assignment_2 | Week_02_Assignment_2 |
| Week_03_Assignment_3 | Week_03_Assignment_3 |
| Week_04_Assignment_4 | Week_04_Assignment_4 |
| Week_05_Assignment_5 | Week_05_Assignment_5 |
| Week_06_Assignment_6 | Week_06_Assignment_6 |
| Week_07_Assignment_7 | Week_07_Assignment_7 |
| Week_08_Assignment_8 | Week_08_Assignment_8 |
| Week_09_Assignment_9 | Week_09_Assignment_9 |
| Week_10_Assignment_10 | Week_10_Assignment_10 |
| Week_11_Assignment_11 | Week_11_Assignment_11 |
| Week_12_Assignment_12 | Week_12_Assignment_12 |
| Sl.No | Chapter Name | MP4 Download |
|---|---|---|
| 1 | Lecture 01 : Eulerian and Lagrangian Description of Fluid Motion | Download |
| 2 | Lecture 02 : Lines of Flow Visualization and Acceleration of Flow | Download |
| 3 | Lecture 03 : Angular Deformation of Fluid Elements | Download |
| 4 | Lecture 04 : Linear and Volumetric Deformation; Perspectives from Mass Conservation | Download |
| 5 | Lecture 05: Continuity Education in Integral Form : Stream Function and Velocity Potential | Download |
| 6 | Lecture 06: Euler Equation for Inviscid Flow | Download |
| 7 | Lecture 07: Bernoulli's Equation | Download |
| 8 | Lecture 08: Examples of Bernoulli's Equation | Download |
| 9 | Lecture 09: Reynolds Transport Equation | Download |
| 10 | Lecture 10: Reynolds Transport Theorem : Mass and Linear Momentum Conservation | Download |
| 11 | Lecture 11 : Reynolds transport theorem: arbitrarily moving control volume | Download |
| 12 | Lecture 12 : Reynolds transport theorem: angular momentum conservation | Download |
| 13 | Lecture 13 : Introduction to traction vector and stress tensor | Download |
| 14 | Lecture 14 : Cauchy/Navier equation | Download |
| 15 | Lecture 15 : Navier Stokes equation | Download |
| 16 | Lecture 16 : Navier Stokes equation(continued) | Download |
| 17 | Lecture 17: Some exact solutions of the Navier Stokes | Download |
| 18 | Lecture 18: Interfacial boundary conditions and example of thin film flows | Download |
| 19 | Lecture 19: Exact solutions of the Navier Stokes equations in cylindrical polar coordinates | Download |
| 20 | Lecture 20: Exact solutions of the Navier Stokes equation for some unsteady flows | Download |
| 21 | Lecture 21: Confined oscillatory flows | Download |
| 22 | Lecture 22: Introduction to Turbulence | Download |
| 23 | Lecture 23: Statistical Treatment of Turbulence and Near - Wall Velocity Profiles | Download |
| 24 | Lecture 24: Introduction to Boundary Layer Theory | Download |
| 25 | Lecture 25: Similarity Solution of Boundary Layer Equation | Download |
| 26 | Lecture 26 : Momentum Integral Method | Download |
| 27 | Lecture 27 : Application of Momentum Integral Method and Boundary Layer Separation | Download |
| 28 | Lecture 28 : Potential Flow | Download |
| 29 | Lecture 29 : Potential Flow (Contd.) | Download |
| 30 | Lecture 30 : Potential Flow (Contd.) | Download |
| 31 | Lecture 31: Potential Flow (Contd.) | Download |
| 32 | Lecture 32: Potential Flow (Contd.) | Download |
| 33 | Lecture 33: Potential Flow (Contd.) | Download |
| 34 | Lecture 34: Stokes Flow past a Sphere | Download |
| 35 | Lecture 35: Stokes Flow past a Sphere (Contd.) | Download |
| 36 | Lecture 36: Stokes Flow past a Sphere (Contd.) | Download |
| 37 | Lecture 37: Lubrication Theory | Download |
| 38 | Lecture 38: Lubrication Theory (Contd.) | Download |
| 39 | Lecture 39: Lubrication Theory (Contd.) | Download |
| 40 | Lecture 40: Thin Film Dynamics | Download |
| 41 | Lecture 41: Thin Film Dynamics (Contd.) | Download |
| 42 | Lecture 42: Thin Film Dynamics (Contd.) | Download |
| 43 | Lecture 43: Thin Film Dynamics (Contd.) | Download |
| 44 | Lecture 44: Thin Film Dynamics (Contd.) | Download |
| 45 | Lecture 45: Thin Film Dynamics (Contd.) | Download |
| 46 | Lecture 46: Thin Film Dynamics (Contd.) | Download |
| 47 | Lecture 47: Thin Film Dynamics (Contd.) | Download |
| 48 | Lecture 48: Compressible Flow | Download |
| 49 | Lecture 49: Compressible Flow (Contd.) | Download |
| 50 | Lecture 50 : Compressible Flows (Stagnation Properties) | Download |
| 51 | Lecture 51 : Compressible Flows (Stagnation Properties, Variable Area) | Download |
| 52 | Lecture 52 : Compressible Flows (Variable Area) | Download |
| 53 | Lecture 53 : Compressible Flows (Variable Area) | Download |
| 54 | Lecture 54 : Compressible Flow (Normal Shock) | Download |
| 55 | Lecture 55: Compressible Flow (Normal Shock) (Contd.) | Download |
| 56 | Lecture 56: Compressible Flow (Converging Nozzle) | Download |
| 57 | Lecture 57: Compressible Flow (Converging Diverging Nozzle) | Download |
| 58 | Lecture 58: Compressible Flow (Converging Diverging Nozzle) (Contd.) | Download |
| 59 | Lecture 59: Compressible Flow with Friction | Download |
| Sl.No | Chapter Name | English |
|---|---|---|
| 1 | Lecture 01 : Eulerian and Lagrangian Description of Fluid Motion | Download Verified |
| 2 | Lecture 02 : Lines of Flow Visualization and Acceleration of Flow | Download Verified |
| 3 | Lecture 03 : Angular Deformation of Fluid Elements | Download Verified |
| 4 | Lecture 04 : Linear and Volumetric Deformation; Perspectives from Mass Conservation | Download Verified |
| 5 | Lecture 05: Continuity Education in Integral Form : Stream Function and Velocity Potential | Download Verified |
| 6 | Lecture 06: Euler Equation for Inviscid Flow | Download Verified |
| 7 | Lecture 07: Bernoulli's Equation | Download Verified |
| 8 | Lecture 08: Examples of Bernoulli's Equation | Download Verified |
| 9 | Lecture 09: Reynolds Transport Equation | Download Verified |
| 10 | Lecture 10: Reynolds Transport Theorem : Mass and Linear Momentum Conservation | Download Verified |
| 11 | Lecture 11 : Reynolds transport theorem: arbitrarily moving control volume | Download Verified |
| 12 | Lecture 12 : Reynolds transport theorem: angular momentum conservation | Download Verified |
| 13 | Lecture 13 : Introduction to traction vector and stress tensor | Download Verified |
| 14 | Lecture 14 : Cauchy/Navier equation | Download Verified |
| 15 | Lecture 15 : Navier Stokes equation | Download Verified |
| 16 | Lecture 16 : Navier Stokes equation(continued) | Download Verified |
| 17 | Lecture 17: Some exact solutions of the Navier Stokes | Download Verified |
| 18 | Lecture 18: Interfacial boundary conditions and example of thin film flows | Download Verified |
| 19 | Lecture 19: Exact solutions of the Navier Stokes equations in cylindrical polar coordinates | Download Verified |
| 20 | Lecture 20: Exact solutions of the Navier Stokes equation for some unsteady flows | Download Verified |
| 21 | Lecture 21: Confined oscillatory flows | Download Verified |
| 22 | Lecture 22: Introduction to Turbulence | Download Verified |
| 23 | Lecture 23: Statistical Treatment of Turbulence and Near - Wall Velocity Profiles | Download Verified |
| 24 | Lecture 24: Introduction to Boundary Layer Theory | Download Verified |
| 25 | Lecture 25: Similarity Solution of Boundary Layer Equation | Download Verified |
| 26 | Lecture 26 : Momentum Integral Method | Download Verified |
| 27 | Lecture 27 : Application of Momentum Integral Method and Boundary Layer Separation | Download Verified |
| 28 | Lecture 28 : Potential Flow | Download Verified |
| 29 | Lecture 29 : Potential Flow (Contd.) | Download Verified |
| 30 | Lecture 30 : Potential Flow (Contd.) | Download Verified |
| 31 | Lecture 31: Potential Flow (Contd.) | Download Verified |
| 32 | Lecture 32: Potential Flow (Contd.) | Download Verified |
| 33 | Lecture 33: Potential Flow (Contd.) | Download Verified |
| 34 | Lecture 34: Stokes Flow past a Sphere | Download Verified |
| 35 | Lecture 35: Stokes Flow past a Sphere (Contd.) | Download Verified |
| 36 | Lecture 36: Stokes Flow past a Sphere (Contd.) | Download Verified |
| 37 | Lecture 37: Lubrication Theory | Download Verified |
| 38 | Lecture 38: Lubrication Theory (Contd.) | Download Verified |
| 39 | Lecture 39: Lubrication Theory (Contd.) | Download Verified |
| 40 | Lecture 40: Thin Film Dynamics | Download Verified |
| 41 | Lecture 41: Thin Film Dynamics (Contd.) | Download Verified |
| 42 | Lecture 42: Thin Film Dynamics (Contd.) | Download Verified |
| 43 | Lecture 43: Thin Film Dynamics (Contd.) | Download Verified |
| 44 | Lecture 44: Thin Film Dynamics (Contd.) | Download Verified |
| 45 | Lecture 45: Thin Film Dynamics (Contd.) | Download Verified |
| 46 | Lecture 46: Thin Film Dynamics (Contd.) | Download Verified |
| 47 | Lecture 47: Thin Film Dynamics (Contd.) | Download Verified |
| 48 | Lecture 48: Compressible Flow | Download Verified |
| 49 | Lecture 49: Compressible Flow (Contd.) | Download Verified |
| 50 | Lecture 50 : Compressible Flows (Stagnation Properties) | Download Verified |
| 51 | Lecture 51 : Compressible Flows (Stagnation Properties, Variable Area) | Download Verified |
| 52 | Lecture 52 : Compressible Flows (Variable Area) | Download Verified |
| 53 | Lecture 53 : Compressible Flows (Variable Area) | Download Verified |
| 54 | Lecture 54 : Compressible Flow (Normal Shock) | Download Verified |
| 55 | Lecture 55: Compressible Flow (Normal Shock) (Contd.) | Download Verified |
| 56 | Lecture 56: Compressible Flow (Converging Nozzle) | Download Verified |
| 57 | Lecture 57: Compressible Flow (Converging Diverging Nozzle) | Download Verified |
| 58 | Lecture 58: Compressible Flow (Converging Diverging Nozzle) (Contd.) | Download Verified |
| 59 | Lecture 59: Compressible Flow with Friction | Download Verified |
| Sl.No | Language | Book link |
|---|---|---|
| 1 | English | Download |
| 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 |