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Fluid Mechanics

Fluid Mechanics. Instructor: Prof. T. I. Eldho, Department of Civil Engineering, IIT Bombay. The main objects are to introduce fluid mechanics and establish its relevance to civil engineering; develop the fundamental principles and demonstrate how these are used in engineering, especially in civil engineering. The important topics covered in this course include the fundamental concepts of fluid flow, fluid statics, kinematics of fluid flow, dynamics of fluid flow, laminar and turbulent flows, pile flow systems, Navier-Stokes equations and applications, and boundary layer theory and applications. (from nptel.ac.in)

Lecture 20 - Laminar and Turbulent Flows: Turbulent Flow (cont.)


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Lecture 01 - Introduction
Lecture 02 - Fundamental Concepts of Fluid Flow and Fluid Statics
Lecture 03 - Fluid Statics: Fluid Pressure
Lecture 04 - Fluid Statics: Forces on Solid Surfaces
Lecture 05 - Fluid Statics: Buoyant Forces
Lecture 06 - Kinematics of Fluid Flow: Equations for Acceleration
Lecture 07 - Kinematics of Fluid Flow: Continuity Equation
Lecture 08 - Kinematics of Fluid Flow: Irrotational and Rotational Flow, Potential Functions
Lecture 09 - Kinematics of Fluid Flow: Potential Functions (cont.)
Lecture 10 - Kinematics of Fluid Flow: Potential and Stream Functions (cont.)
Lecture 11 - Kinematics and Dynamics of Fluid Flow
Lecture 12 - Dynamics of Fluid Flow: Euler and Bernoulli's Theorems
Lecture 13 - Dynamics of Fluid Flow: Applications of Bernoulli's Equations
Lecture 14 - Dynamics of Fluid Flow: Bernoulli's Equations (cont.), Linear Momentum Equation
Lecture 15 - Dynamics of Fluid Flow: Application of Momentum Equation
Lecture 16 - Dynamics of Fluid Flow: Moment of Momentum Equation
Lecture 17 - Laminar and Turbulent Flows: Types of Flow, Reynolds Experiment
Lecture 18 - Laminar and Turbulent Flows: Laminar Flow between Parallel Plates
Lecture 19 - Laminar and Turbulent Flows: Laminar Flow in Pipes, Turbulent Flow
Lecture 20 - Laminar and Turbulent Flows: Turbulent Flow (cont.)
Lecture 21 - Laminar and Turbulent Flows: Prandtl's Mixing Length Theory
Lecture 22 - Laminar and Turbulent Flows: Turbulent Flow in Pipes
Lecture 23 - Dimensional Analysis
Lecture 24 - Dimensional Analysis (cont.)
Lecture 25 - Dimensional Analysis (cont.)
Lecture 26 - Navier-Stokes Equations and Applications
Lecture 27 - Navier-Stokes Equations and Applications (cont.)
Lecture 28 - Navier-Stokes Equations and Applications (cont.)
Lecture 29 - Navier-Stokes Equations and Applications (cont.)
Lecture 30 - Boundary Layer Theory and Applications
Lecture 31 - Boundary Layer Theory and Applications (cont.)
Lecture 32 - Boundary Layer Theory and Applications (cont.)
Lecture 33 - Boundary Layer Theory and Applications (cont.)
Lecture 34 - Boundary Layer Theory and Applications (cont.)
Lecture 35 - Boundary Layer Theory and Applications (cont.)
Lecture 36 - Pipe Flow Systems
Lecture 37 - Pipe Flow Systems: Darcy-Weisbach Equation, Moody Diagram
Lecture 38 - Pipe Flow Systems: Minor Losses, Pipe Flow System Design
Lecture 39 - Pipe Flow Systems: Siphon, Pipe System in Series/in Parallel
Lecture 40 - Pipe Flow Systems: Branching Pipe System, Analysis of Pipe Networks
Lecture 41 - Pipe Flow Systems: Pipe Networks (cont.)
Lecture 42 - Pipe Flow Systems: Unsteady Flow in Closed Conduits