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Bernoulli Equation Derivation

Simple Bernoulli Equation Example

Air Flow Through a Constriction

Draining a Conical Tank

Draining a Cylindrical Tank

Flow Rate Out of a Coffee Urn

Flow Exiting a Tank (Bernoulli)

Draining a Spherical Tank

Velocity of a Falling Sphere

Pitot Static Tube Introduction & Example

Pitot Tube Example

Derivation of the Continuity Equation

Deriving Continuity Equation in Cylindrical Coordinates

Differential Form of Continuity Equation

Continuity and Stream Functions

Irrotational & Incompressible Flow

Naming Normal and Tangential Stresses

Coordinate Transformations, part 1 - Lecture 3.1 - Chemical Engineering Fluid Mechanics

Coordinate Transformations, part 2 - Lecture 3.2 - Chemical Engineering Fluid Mechanics

Coordinate Transformations, part 3 - Lecture 3.3 - Chemical Engineering Fluid Mechanics

Solve for Equations of Motion

Velocity Potentials and Stream Functions

Applying the Navier-Stokes Equations, part 1 - Lecture 4.6 - Chemical Engineering Fluid Mechanics

Applying the Navier-Stokes Equations, part 2 - Lecture 4.7 - Chemical Engineering Fluid Mechanics

Applying the Navier-Stokes Equations, part 3 - Lecture 4.8 - Chemical Engineering Fluid Mechanics

Applying the Navier-Stokes Equations, part 4 - Lecture 4.9 - Chemical Engineering Fluid Mechanics

Boundary Conditions for a Velocity Profile

Laminar Flow between Parallel Plates (Navier-Stokes)

Shear Stress between Parallel Plates

Energy Loss for Flow through Non-Circular Duct

Entrance Length Example

Entrance Region vs. Fully Developed Flow

Fully Developed Laminar Flow (Using Force Balance)

Losses & Friction Factors, part 1 - Lecture 6.1 - Chemical Engineering Fluid Mechanics

Losses & Friction Factors, part 2 - Lecture 6.2 - Chemical Engineering Fluid Mechanics

Losses & Friction Factors, part 3 - Lecture 6.3 - Chemical Engineering Fluid Mechanics

Losses & Friction Factors, part 4 - Lecture 6.4 - Chemical Engineering Fluid Mechanics

Pipe Flow Introduction

Pipe Flow Problem (Determine Diameter)

Pipe Flow Computer Solver (Determine Diameter)

Pipe Flow: Determining Power

Pipe Flow: Entrance Region & Entrance Length

Pressure Drop in a Pipe (Laminar Flow)

Pressure Drop in Pipe with Losses (Determine Pressure Drop)

Pressure Drop in Pipe with Losses (Determine Q)

Using a Moody Chart

Volumetric Flow Rate for Laminar Pipe Flow

Blasius Solution for the y-Component of Velocity

Boundary Layer Example Problem

Boundary Layers

Drag Force on an Irregular Object

Lift and Drag on Aircraft

Pressure Drag

Shear Stress at a Wall: Blasius Solutions

y-Component of Velocity at a Boundary Layer

Description and Derivation of the Navier-Stokes Equations

Integral Form of the Continuity Equation - Moving Control Volume

Introduction to the Integral Form of the Continuity Equation

Integral Form of the Continuity Equation - Branched System

Blasius Solution for Boundary Layer Flow

Example of Blasius Solution for Boundary Layer Flow

Using Boundary Conditions

Couette Flow

Density Example Problem

Properties of Fluids Part 1

Properties of Fluids Part 2

Flow in a Pipe

Barometer Example

Velocity Profile in the z-direction

Equivalent Length

Equivalent Length Example

Multipipe Systems

Multipipes in Series

Bernoulli Equation and Pipe Flow (Interactive Simulation)

Multipipe in Parallel

Surface Roughness Effect on Trajectory (Interactive Simulation)

Velocity and Drag on a Falling Object (Interactive Simulation)

Vectors (Interactive Simulation)

Calculating Velocity in a Pipe with Viscous Flow

Calculating Pipe Velocity Example

Buoyancy of a Floating Cube (Interactive Simulation)

Flow around a Sphere at Low Reynolds Number (Interactive Simulation)

Couette Flow (Interactive Simulation)

Manometers (Interactive Simulation)

Description:

Explore a comprehensive 10-hour series of screencasts covering fluid dynamics and transport phenomena. Dive into topics such as the Bernoulli Equation, continuity equations, Navier-Stokes equations, boundary layers, and pipe flow. Learn through detailed derivations, practical examples, and interactive simulations. Gain a deep understanding of fluid mechanics concepts, including laminar flow, pressure drops, drag forces, and multipipe systems. Study coordinate transformations, velocity profiles, and the properties of fluids. Benefit from corrected closed captioning and access additional resources organized by "Fundamentals of Fluid Mechanics" on the LearnChemE website.

Fluid Dynamics

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#Science #Physics #Fluid Mechanics #Fluid Dynamics #Engineering #Chemical Engineering #Transport Phenomena #Boundary Layers #Laminar Flow #Navier Stokes Equations

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