Lec. No |
Topics |
1. |
Introduction to Microfluidics |
2. |
Microfluidics: Some Application Examples |
3. |
Microfluidics: Some More Application Examples |
4. |
Equations of Conservation |
5. |
Navier Stokes Equation |
6. |
Navier Stokes Equation (Contd.) |
7. |
Energy Equation |
8. |
Energy Equation (Contd.) and Species Conservation Equation |
9. |
Pressure –driven Microflows |
10. |
Pressure-driven Microflows (Contd.) |
11. |
Pressure-driven Microflows (Contd.) |
12. |
Pressure-driven Microflows (Contd.) |
13. |
Pressure-driven Microflows (Contd.) |
14. |
Some Examples of Unsteady Flows |
15. |
Some Examples of Unsteady Flows (Contd.) |
16. |
Some Examples of Unsteady Flows (Contd.) |
17. |
Stokes Drag on a Sphere |
18. |
Stokes Drag on a Sphere (Contd.) and Introduction to Lubrication Theory |
19. |
Lubircation Theory (Contd.) |
20. |
Lubrication Theory (Contd.) |
21. |
Boundary Condition in Fluid Mechanics : Slip or No-slip? |
22. |
Boundary Condition in Fluid Mechanics: Slip or No-slip? (Contd.) |
23. |
Surface Tension Driven Flows |
24. |
Surface Tension Driven Flows (Contd.) |
25. |
Surface Tension Driven Flows (Contd.) |
26. |
Surface Tension Driven Flows (Contd.) |
27. |
Surface Tension Driven Flows (Contd.) and Modulating Surface Tension |
28. |
Modulating Surface Tension (Contd.) |
29. |
Thin Film Dynamics |
30. |
Thin Film Dynamics (Contd.) |
31. |
Thin Film Dynamics (Contd.) |
32. |
Thin Film Dynamics (Contd.) |
33. |
Lab on a CD |
34. |
Lab on a CD (Contd.) |
35. |
Introduction to Microfabrication |
36. |
Electrokinetics |
37. |
Electrokinetics (Contd.) |
38. |
Electrokinetics (Contd.) |
39. |
Electrokinetics (Contd.) |
40. |
Electrokinetics (Contd.) |
41. |
Electrokinetics (Contd.) |
42. |
Dispersion |
43. |
Introduction to Nanofluidics |
44. |
Introduction to Nanofluidics (Contd.) and Molecular Dynamics Simulations |
45. |
Introduction to Molecular Dynamics Simulations (Contd.) |
46. |
Biomicrofluidics |
47. |
Biomicrofluidics (Contd.) |
48. |
Nanofluidic Energy Conversion |