Introduction; Fluid properties; Types of fluids

Pascal's Law; Hydrostatic law or Pressure variation in a fluid at rest

Problems based on Pascal's Law

Measurement of Pressure using Manometer (Theory and Problem)

Problems based on measurement of pressure using manometer (Part 1)

Problems based on measurement of pressure using manometer (Part 2)

Measurement of Pressure using Single Column Manometer (Theory and Problem)

Measurement of Pressure using Differential Manometer (Theory and Problem)

Hydrostatic forces on surfaces; Vertical plane surface submerged in liquid (Derivation)

Problems based on vertical plane surface

Inclined plane submerged in liquid (Derivation)

Problems based on inclined plane surface

Buoyancy and Center of Buoyancy; Problems based on buoyancy (Part 1)

Problem based on buoyancy (Part 2)

Metacentre and Metacentric height; Expression for metacentric height (Analytic Method)

Problems based on Metacentric height

Stability of floating and submerged bodies; Expression for metacentric height - Experimental Method (Theory and Problem)

Notes - Module 1

32 pages

Introduction; Method of describing fluid motion; Types of fluid flow; Continuity Equation

Problems based on continuity equation

Continuity equations in 3D; Velocity and Acceleration of a fluid flow (Theory and Problem)

Problems based on continuity equations in 3D, velocity and acceleration of fluid flow (Part 2)

Velocity potential function and Stream function; Equipotential line, Stream function line and Flownet

Relation between Stream and Velocity potential functions; Pathline, Streamline and Streakline

Problems based on velocity potential and stream functions; Circulation and Vorticity

Notes - Module 2

49 pages

Introduction; Fluid Kinetics; Euler’s equation of motion

Bernoulli’s equation from Euler's equation (Theory and Problems)

Venturimeter; Expression for discharge through venturimeter

Problems related to venturimeter

Orificemeter; Discharge through orificemeter (Theory and Problem)

Pitot tube (Theory and Problems)

Hydraulic coefficients of orifices and their experimental determination (Theory and Problems)

Pitot-Static Tube; Notches and Weirs

Notes - Module 3

10 pages

Introduction; Pipe flow; Reynold's Experiment

Hagen-Poiseuille equation

Darcy–Weisbach equation; Chezy's Formula (Theory)

Darcy–Weisbach equation; Chezy's Formula (Problems)

Loss of head due to sudden enlargement of pipe (Theory and Problems)

Loss of head due to sudden contraction of pipe (Theory and Problems)

Minor loss and Major loss (Problems)

Flow through pipe in series (Problem)

Equivalent pipe; Problems related to flow through parallel pipe

Hydraulic gradient and Total Energy Line; Water hammer; Cavitation; Power transmission through pipes

Flow through Siphon; Moody's Chart

Notes - Module 4

18 pages

Introduction; Boundary Layer Theory; Growth of Boundary Layer over a Flat Plate

Boundary layer thickness; Displacement thickness

Momentum thickness; Energy thickness

Problems related to Boundary layer thickness, Displacement thickness, Momentum thickness and Energy thickness

Von-Karman momentum integral equations

Separation of boundary layer and Prevention methods (Part 1)

Separation of boundary layer and Prevention methods (Part 2)

Dimensional Analysis; Buckingham's π - Theorem

Problems related to Buckingham's π - Theorem

Dimensionless numbers; Similitude - Types of Similarities; Model Laws; Reynolds Model Law

Problems related to Reynolds Model Law; Froude Model Law (Theory and Problems)

Weber Model Law; Mach Model Law; Applications and Limitations of Model Testing

Notes - Module 5

15 pages

MET203 - 13.10.2022

MET203 - 22.10.2022

MET203 - 29.10.2022

MET203 - 02.11.2022

MET203 - 17.11.2022

MET203 - 11.12.2022

MET203 - 22.12.2022

MET203 - 29.12.2022

Day 1 - MET203

Day 2 - MET203