(Click for List) was instrumental in the formulation of the boundary layer (B.L.

Question

(Click for List) was instrumental in the formulation of the boundary layer (B.L.) concept. He realised that the effects of (Click for List) acted on a (Click for List) region close to a surface in relative motion to the fluid. He formulated his boundary layer equation by simplifying the Equations for (Click for List) and (Click for List) (Click for List) flow. He applied (Click for List) analysis to reduce the 3D equations to a equation in the (Click for List) (Click for List) direction. (Click for List) solved the Prandtl boundary layer equation together with the equation for (Click for List) (Click for List) flow by applying the concept of (Click for List) and reducing the partial differential equation to an ordinary diferential equation. Howarth and other researchers obtained a (Click for List) solution that we use today in the formulation of simple working relationships for boundary layer parameters (e.g. B.L. thickness, displacement and thickness) as functions of (Click for List) (Click for List) number.

Explanation / Answer

Prandtl, viscosity, thin, continuity, steady, streamwise, oder of magnitude, 2D, laminar, Blasius, Navier Stokes, zero pressure gradient, stream function, numerical, momentum, Reynolds

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