NPTEL : NOC:Introduction to Fluid Mechanics (2019) (Mechanical Engineering)

Co-ordinators : Prof. Suman Chakraborty


Lecture 1 - Motivations of studying fluid mechanics

Lecture 2 - Macroscopic and microscopic point of views

Lecture 3 - Concept of traction vector

Lecture 4 - Cauchy's theorem

Lecture 5 - Concept of pressure in a fluid

Lecture 6 - Density, Bulk Modulus, Viscosity

Lecture 7 - Viscosity, Newtonian fluid

Lecture 8 - Kinematic viscosity, Reynolds number

Lecture 9 - Non-Newtonian fluids

Lecture 10 - Some illustrative examples solved

Lecture 11 - Problems and Solutions

Lecture 12 - Surface Tension - Part I

Lecture 13 - Surface Tension - Part II

Lecture 14 - Governing equation of fluid statics

Lecture 15 - Manometers

Lecture 16 - Force on a surface immersed in fluid - Part I

Lecture 17 - Force on a surface immersed in fluid - Part II

Lecture 18 - Force on a surface immersed in fluid - Part III, Stability of solid bodies in fluid - Part I

Lecture 19 - Stability of solid bodies in fluid - Part II

Lecture 20 - Fluid under rigid body motion

Lecture 21 - Lagrangian and Eulerian approaches

Lecture 22 - Concept of different flow lines

Lecture 23 - Acceleration of fluid flow

Lecture 24 - Deformation of fluid elements - Part I

Lecture 25 - Derivation of continuity equation

Lecture 26 - Problems and Solutions

Lecture 27 - Deformation of fluid elements - Part II

Lecture 28 - Deformation of fluid elements - Part III

Lecture 29 - Stream Function

Lecture 30 - Circulation, Velocity Potential

Lecture 31 - Euler's equation

Lecture 32 - Bernoulli’s equation - Part I

Lecture 33 - Bernoulli’s equation - Part II

Lecture 34 - Bernoulli's equation - Part III

Lecture 35 - Euler’s equation in streamline coordinates

Lecture 36 - Problems and Solutions

Lecture 37 - Problems and Solutions

Lecture 38 - Application of Bernoulli's equation - Part I

Lecture 39 - Application of Bernoulli's equation - Part II

Lecture 40 - Application of Bernoulli's equation - Part III

Lecture 41 - Reynolds Transport Theorem (RTT)

Lecture 42 - Application of RTT: Conservation of mass

Lecture 43 - Problems and Solutions

Lecture 44 - Problems and Solutions

Lecture 45 - Application of RTT: Conservation of linear momentum

Lecture 46 - Problems and Solutions

Lecture 47 - Problems and Solutions

Lecture 48 - Problems and Solutions

Lecture 49 - Application of RTT: Conservation of angular momentum

Lecture 50 - Problems and Solutions

Lecture 51 - Navier-Stokes equation - Part I

Lecture 52 - Navier-Stokes equation - Part II

Lecture 53 - Navier-Stokes equation - Part III

Lecture 54 - Navier-Stokes equation - Part IV

Lecture 55 - Pipe Flow - Part I

Lecture 56 - Pipe Flow - Part II

Lecture 57 - Pipe Flow - Part III

Lecture 58 - Pipe Flow - Part IV

Lecture 59 - Principle of Similarity and Dynamical Analysis - Part I

Lecture 60 - Principle of Similarity and Dynamical Analysis - Part II