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Continuity and Stream Functions
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Fluid Dynamics
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- 1 Bernoulli Equation Derivation
- 2 Simple Bernoulli Equation Example
- 3 Air Flow Through a Constriction
- 4 Draining a Conical Tank
- 5 Draining a Cylindrical Tank
- 6 Flow Rate Out of a Coffee Urn
- 7 Flow Exiting a Tank (Bernoulli)
- 8 Draining a Spherical Tank
- 9 Velocity of a Falling Sphere
- 10 Pitot Static Tube Introduction & Example
- 11 Pitot Tube Example
- 12 Derivation of the Continuity Equation
- 13 Deriving Continuity Equation in Cylindrical Coordinates
- 14 Differential Form of Continuity Equation
- 15 Continuity and Stream Functions
- 16 Irrotational & Incompressible Flow
- 17 Naming Normal and Tangential Stresses
- 18 Coordinate Transformations, part 1 - Lecture 3.1 - Chemical Engineering Fluid Mechanics
- 19 Coordinate Transformations, part 2 - Lecture 3.2 - Chemical Engineering Fluid Mechanics
- 20 Coordinate Transformations, part 3 - Lecture 3.3 - Chemical Engineering Fluid Mechanics
- 21 Solve for Equations of Motion
- 22 Velocity Potentials and Stream Functions
- 23 Applying the Navier-Stokes Equations, part 1 - Lecture 4.6 - Chemical Engineering Fluid Mechanics
- 24 Applying the Navier-Stokes Equations, part 2 - Lecture 4.7 - Chemical Engineering Fluid Mechanics
- 25 Applying the Navier-Stokes Equations, part 3 - Lecture 4.8 - Chemical Engineering Fluid Mechanics
- 26 Applying the Navier-Stokes Equations, part 4 - Lecture 4.9 - Chemical Engineering Fluid Mechanics
- 27 Boundary Conditions for a Velocity Profile
- 28 Laminar Flow between Parallel Plates (Navier-Stokes)
- 29 Shear Stress between Parallel Plates
- 30 Energy Loss for Flow through Non-Circular Duct
- 31 Entrance Length Example
- 32 Entrance Region vs. Fully Developed Flow
- 33 Fully Developed Laminar Flow (Using Force Balance)
- 34 Losses & Friction Factors, part 1 - Lecture 6.1 - Chemical Engineering Fluid Mechanics
- 35 Losses & Friction Factors, part 2 - Lecture 6.2 - Chemical Engineering Fluid Mechanics
- 36 Losses & Friction Factors, part 3 - Lecture 6.3 - Chemical Engineering Fluid Mechanics
- 37 Losses & Friction Factors, part 4 - Lecture 6.4 - Chemical Engineering Fluid Mechanics
- 38 Pipe Flow Introduction
- 39 Pipe Flow Problem (Determine Diameter)
- 40 Pipe Flow Computer Solver (Determine Diameter)
- 41 Pipe Flow: Determining Power
- 42 Pipe Flow: Entrance Region & Entrance Length
- 43 Pressure Drop in a Pipe (Laminar Flow)
- 44 Pressure Drop in Pipe with Losses (Determine Pressure Drop)
- 45 Pressure Drop in Pipe with Losses (Determine Q)
- 46 Using a Moody Chart
- 47 Volumetric Flow Rate for Laminar Pipe Flow
- 48 Blasius Solution for the y-Component of Velocity
- 49 Boundary Layer Example Problem
- 50 Boundary Layers
- 51 Drag Force on an Irregular Object
- 52 Lift and Drag on Aircraft
- 53 Pressure Drag
- 54 Shear Stress at a Wall: Blasius Solutions
- 55 y-Component of Velocity at a Boundary Layer
- 56 Description and Derivation of the Navier-Stokes Equations
- 57 Integral Form of the Continuity Equation - Moving Control Volume
- 58 Introduction to the Integral Form of the Continuity Equation
- 59 Integral Form of the Continuity Equation - Branched System
- 60 Blasius Solution for Boundary Layer Flow
- 61 Example of Blasius Solution for Boundary Layer Flow
- 62 Using Boundary Conditions
- 63 Couette Flow
- 64 Density Example Problem
- 65 Properties of Fluids Part 1
- 66 Properties of Fluids Part 2
- 67 Flow in a Pipe
- 68 Barometer Example
- 69 Velocity Profile in the z-direction
- 70 Equivalent Length
- 71 Equivalent Length Example
- 72 Multipipe Systems
- 73 Multipipes in Series
- 74 Bernoulli Equation and Pipe Flow (Interactive Simulation)
- 75 Multipipe in Parallel
- 76 Surface Roughness Effect on Trajectory (Interactive Simulation)
- 77 Velocity and Drag on a Falling Object (Interactive Simulation)
- 78 Vectors (Interactive Simulation)
- 79 Calculating Velocity in a Pipe with Viscous Flow
- 80 Calculating Pipe Velocity Example
- 81 Buoyancy of a Floating Cube (Interactive Simulation)
- 82 Flow around a Sphere at Low Reynolds Number (Interactive Simulation)
- 83 Couette Flow (Interactive Simulation)
- 84 Manometers (Interactive Simulation)