2. Consider the boundary-layer momentum equation for steady incompressible flow in two dimen- sions: ди du + pv- ду e, dpe dy ди pu- Assume the viscosity, u, to be constant. What does this equation simplifies to at a stationary solid surface? Based on this result, is a boundary layer more likely to separate in a favourable pressure gradient (pressure decreasing) or an adverse pressure gradient? Sketch the velocity profile of a boundary layer that is attached and one that is separated.
2. Consider the boundary-layer momentum equation for steady incompressible flow in two dimen- sions: ди du + pv- ду e, dpe dy ди pu- Assume the viscosity, u, to be constant. What does this equation simplifies to at a stationary solid surface? Based on this result, is a boundary layer more likely to separate in a favourable pressure gradient (pressure decreasing) or an adverse pressure gradient? Sketch the velocity profile of a boundary layer that is attached and one that is separated.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:2. Consider the boundary-layer momentum equation for steady incompressible flow in two dimen-
sions:
ди
dpe
ду
du
du
+ po ay
dx
Assume the viscosity, u, to be constant. What does this equation simplifies to at a stationary solid
surface? Based on this result, is a boundary layer more likely to separate in a favourable
gradient (pressure decreasing) or an adverse pressure gradient? Sketch the velocity profile of a
boundary layer that is attached and one that is separated.
pressure
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