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Using Von Karman momentum integral equation, find the boundary layer thickness, the displacement thickness, the momentum thickness the wall shear stress, the friction coefficient, and the drag coefficient
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Using Von Karman momentum integral equation, find the boundary layer thickness, the displacement thickness, the momentum thickness the wall shear stress, the friction coefficient, and the drag coefficient for a flat plate with zero pressure gradient in a laminar flow. Assume a third order polynomial for the velocity profile. What happens is we add a constant positive pressure gradient

User Jaykul
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Answer:

Step-by-step explanation:

We can solve Von Karman momentum integral equation as seen below using following in the attached file

Using Von Karman momentum integral equation, find the boundary layer thickness, the-example-1
Using Von Karman momentum integral equation, find the boundary layer thickness, the-example-2
Using Von Karman momentum integral equation, find the boundary layer thickness, the-example-3
Using Von Karman momentum integral equation, find the boundary layer thickness, the-example-4
Using Von Karman momentum integral equation, find the boundary layer thickness, the-example-5
User Christoph Hansen
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6.2k points
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