Media Storage Type : 32 GB USB Stick
NPTEL Subject Matter Expert : Prof. Harish N Dixit
NPTEL Co-ordinating Institute : IIT Madras
NPTEL Lecture Count : 53
NPTEL Course Size : 3.8 GB
NPTEL PDF Text Transcription : Available and Included
NPTEL Subtitle Transcription : Available and Included (SRT)
Lecture Titles:
Lecture 1 - Non-dimensional numbers in interfacial flows
Lecture 2 - Integral form of governing equations
Lecture 3 - Boundary (Jump) conditions at a fluid-fluid interface (no surface tension)
Lecture 4 - On surface tension and interfacial energy
Lecture 5 - Introduction to surface tension effects
Lecture 6 - Boundary (Jump) conditions at a fluid-fluid interface (with surface tension) - Part 1
Lecture 7 - Boundary (Jump) conditions at a fluid-fluid interface (with surface tension) - Part 2
Lecture 8 - Summary of equations
Lecture 9 - Capillary statics shape of meniscus - Part 1
Lecture 10 - Capillary statics shape of meniscus - Part 2
Lecture 11 - Shape of static meniscus-Energy minimisation - Part 1
Lecture 12 - Calculus of variations (a primer): Euler-Lagrange equations
Lecture 13 - Shape of static meniscus-Energy minimisation - Part 2
Lecture 14 - Method of Lagrange multipliers
Lecture 15 - On wetting and shape of a drop
Lecture 16 - The Young's Equation: Partial wetting
Lecture 17 - Variational approach to the Young-Laplace equation - Part 1
Lecture 18 - Variational approach to the Young-Laplace equation - Part 2
Lecture 19 - Shape of a puddle - large/heavy drops
Lecture 20 - Wetting on rough and textured surface - Part 1
Lecture 21 - Wetting on rough and textured surface - Part 2
Lecture 22 - Wetting on rough and textured surface - Part 3
Lecture 23 - Law of capillary rise
Lecture 24 - Dynamics of capillary rise
Lecture 25 - Dynamics of capillary rise: Analysis of regimes
Lecture 26 - Forced wetting and coating flows
Lecture 27 - More on coating and Landau-Levich equation
Lecture 28 - Lubrication approximation and thin films
Lecture 29 - Free surface flows and interface conditions
Lecture 30 - Uniform flow down an incline
Lecture 31 - Shape of a falling jet
Lecture 32 - A quick tour of stability analysis
Lecture 33 - Rayleigh-Plateau instability - Part 1
Lecture 34 - Rayleigh-Plateau instability - Part 2
Lecture 35 - Rayleigh-Plateau instability - Part 3
Lecture 36 - Rupture of thin films - Part 1
Lecture 37 - Rupture of thin films - Part 2
Lecture 38 - Rupture of thin films - Effect of van der Waals force
Lecture 39 - Rupture of thin films - Part 3
Lecture 40 - Rupture of thin films - Part 4
Lecture 41 - Benard-Marangoni Instability - Part 1
Lecture 42 - Benard-Marangoni Instability - Part 2
Lecture 43 - Benard-Marangoni Instability - Part 3
Lecture 44 - Benard-Marangoni Instability - Part 4
Lecture 45 - Kelvin helmholtz instability - Part 1
Lecture 46 - Kelvin helmholtz instability - Part 2
Lecture 47 - Kelvin helmholtz instability - Part 3
Lecture 48 - Kelvin helmholtz instability - Part 4
Lecture 49 - Contact angle hysterisis
Lecture 50 - Thin film down an incline-a contact line problem - Part 1
Lecture 51 - Thin film down an incline-a contact line problem - Part 2
Lecture 52 - Local flow near a moving contact line
Lecture 53 - Modelling of moving contact line