Introduction to Microfluidics – Microfluidics: Some More Application Examples – Equations of Conservation – Navier Stokes Equation – Energy Equation and Species Conservation Equation – Pressure –driven Microflows – Some Examples of Unsteady Flows – Stokes Drag on a Sphere and Introduction to Lubrication Theory – Boundary Condition in Fluid Mechanics : Slip or No-slip – Surface Tension Driven Flows and Modulating Surface Tension – Thin Film Dynamics – Lab on a CD – Introduction to Microfabrication – Electrokinetics – Dispersion – Introduction to Nanofluidics – and Molecular Dynamics Simulations – Introduction to Molecular Dynamics Simulations – Biomicrofluidics – Nanofluidic Energy Conversion

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Course Curriculum

Introduction to Microfluidics Details 56:53
Microfluidics: Some Application Examples Details 55:31
Microfluidics: Some More Application Examples Details 55:41
Equations of Conservation Details 56:55
Navier Stokes Equation Details 1:37
Navier Stokes Equation (Contd.) Details 58:12
Energy Equation Details 57:54
Energy Equation (Contd.) and Species Conservation Equation Details 1:52
Pressure –driven Microflows Details 55:20
Pressure-driven Microflows (Contd.) Details 58:31
Pressure-driven Microflows (Contd.) Details 56:44
Pressure-driven Microflows (Contd.) Details 53:40
Pressure-driven Microflows (Contd.) Details 59:37
Some Examples of Unsteady Flows Details 58:21
Some Examples of Unsteady Flows (Contd.) Details 57:12
Some Examples of Unsteady Flows (Contd.) Details 58:42
Stokes Drag on a Sphere Details 58:38
Stokes Drag on a Sphere (Contd.) and Introduction to Lubrication Theory Details 52:7
Lubircation Theory (Contd.) Details 58:57
Mod-01 Lec 20 Lubrication Theory (Contd.) Details 57:25
Boundary Condition in Fluid Mechanics : Slip or No-slip? Details 54:45
Boundary Condition in Fluid Mechanics: Slip or No-slip? (Contd.) Details 1:49
Surface Tension Driven Flows Details 56:28
Surface Tension Driven Flows (Contd.) Details 54:57
Surface Tension Driven Flows (Contd.) Details 55:56
Surface Tension Driven Flows (Contd.) Details 55:18
Surface Tension Driven Flows (Contd.) and Modulating Surface Tension Details 52:43
Modulating Surface Tension (Contd.) Details 57:26
Thin Film Dynamics Details 57:24
Thin Film Dynamics (Contd.) Details 53:8
Thin Film Dynamics (Contd.) Details 55:33
Thin Film Dynamics (Contd.) Details 52:23
Lab on a CD Details 56:16
Lab on a CD (Contd.) Details 58:6
Mod-01 Lec -35 Introduction to Microfabrication Details 57:10
Electrokinetics Details 59:54
Electrokinetics (Contd.) Details 59:20
Electrokinetics (Contd.) Details 59:5
Introduction to Molecular Dynamics Simulations (Contd.) Details 57:37
Biomicrofluidics Details 1:29
Biomicrofluidics (Contd.) Details 59:40
Nanofluidic Energy Conversion Details 59:21
Electrokinetics (Contd.) Details 58:25
Electrokinetics (Contd. ) Details 55:56
Electrokinetics ( Contd. ) Details 54:50
Dispersion Details 1:44
Introduction to Nanofluidics Details 55:17
Introduction to Nanofluidics (Contd.) and Molecular Dynamics Simulations Details 59:25

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