Description: Hydraulics deals with the mechanical properties of liquids. It is the liquid version of pneumatics. Fluid mechanics provides the theoretical foundation for hydraulics, which focuses on the engineering uses of fluid properties.
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Hydraulics
- Lec-1 Introduction to Hydraulics
- Lec-2 Open Channel Hydraulic Part- 1
- Lec-3 Open Channel Hydraulics Part -2
- Lec-4 Velocity and Pressure Distribution
- Lec 5 – Practical Use Of Velocity Co-Efficient In Channel Flow
- Lec 6 – Conservation Principles & ioioGoverning Equations
- Lec 7 – Uniform Flow
- Lec 8 – Uniform Flow Formula
- Lec-9 Computation of Uniform Flow Part-2
- Lec 10 – Computation of Uniform Flow Part – 2
- Lec 11 – Uniform Flow in Mobile Boundary Channel
- Lec 12 – Incipient Motion Condition and Regime of Flow
- Lec 13 – Concept of Specific Energy
- Lec 14 – Computation of Critical Depth
- Lec 15 – Specific Force, Critical Depth & Sequent Depth
- Lec 16 – Non-uniform Flow: Gradually Varied Flow
- Lec 17 – Classification of Gradually Varied Flow
- Lec 18 – Characteristic of Gradually Varied Flow
- Lec 19 – Characteristic of Gradually Varied Flow & its Computation
- Lec 20 – Computation of Gradually Varied Flow
- Lec 23 – Hydraulic Jump
- Lec 24 – Flow Over Hump and Channel Contraction
- Lec 25 – Canal Design – 1
- Lec 26 – Canal Design – 2
- Lec 27 – Design of Alluvial Channel – 1
- Lec 28 – Design of Alluvial Channel – 2
- Lec 29 – Design of Alluvial Channel – 3
- Lec 30 – Unsteady Flow Part- 1
- Lec 31- Unsteady Flow Part – 2
- Lec 32 – Unsteady Flow Part – 3
- Lec 33 – Pipe Flow: Friction Loss Part- 1
- Lec 34 – Pipe Flow: Friction Loss Part- 2
- Lec 35 – Pipe Flow: Losses in Pipes Part- 1
- Lec 36 – Pipe Flow: Losses in Pipe Part- 2
- Lec 37 – Pipe in Series & Parallel
- Lec 38 – Pipe Network Analysis
- Lec 39 – Water Hammer & Surge Tank
- Lec 40 – Gradually Varied Flow & its Computation