Lecture 1 - Introduction to Hydraulics

Lecture 2 - Open Channel Hydraulics - Part 1

Lecture 3 - Open Channel Hydraulics - Part 2

Lecture 4 - Velocity and Pressure Distribution

Lecture 5 - Practical use of velocity co-efficient in channel flow

Lecture 6 - Conservation Principles & ioioGoverning Equations

Lecture 7 - Uniform Flow

Lecture 8 - Uniform Flow Formula

Lecture 9 - Computation of Uniform Flow - Part 1

Lecture 10 - Computation of Uniform Flow - Part 2

Lecture 11 - Uniform Flow in Mobile Boundary Channel

Lecture 12 - Incipient Motion Condition and Regime of Flow

Lecture 13 - Concept of Specific Energy

Lecture 14 - Computation of Critical Depth

Lecture 15 - Specific Force, Critical Depth & Sequent Depth

Lecture 16 - Non-uniform Flow: Gradually Varied Flow

Lecture 17 - Classification of Gradually Varied Flow

Lecture 18 - Characteristic of Gradually Varied Flow

Lecture 19 - Characteristic of Gradually Varied Flow & its Computation

Lecture 20 - Gradually Varied Flow & its Computation

Lecture 21 - Computation of Gradually Varied Flow

Lecture 22 - Gradually Varied Flow: Numerical Methods and Problem Solving

Lecture 23 - Rapidly Varied Flow: Hydraulic Jump

Lecture 24 - Hydraulic Jump

Lecture 25 - Flow Over Hump and Channel Contraction

Lecture 26 - Canal Design - 1

Lecture 27 - Canal Design - 2

Lecture 28 - Design of Alluvial Channel - 1

Lecture 29 - Design of Alluvial Channel - 2

Lecture 30 - Design of Alluvial Channel - 3

Lecture 31 - Unsteady Flow: Waves and its Classification

Lecture 32 - Unsteady Flow Part - 2

Lecture 33 - Unsteady Flow Part - 3

Lecture 34 - Pipe Flow: Friction Loss

Lecture 35 - Pipe Flow: Losses in Pipes

Lecture 36 - Pipe in Series & Parallel

Lecture 37 - Pipe Network Analysis

Lecture 38 - Water Hammer & Surge Tank

Lecture 39 - Pipe Flow Friction Loss

Lecture 40 - Pipe Flow: Losses in Pipe