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2. An incompressible fluid flows past a stationary flat plate with uniform inlet profile and a polynomial (3n-n³ outlet profile vx,out = V0 where n =, as shown below, 2 Vo 8 ویر Vo A control volume has been defined which has a height 8 and width W (into the plane of the paper). If the plate has a width b determine a relationship for the volumetric flowrate Q across the top surface of the control volume as a function of vo, 8, and W.

2. An incompressible fluid flows past a stationary flat plate with uniform inlet profile and a polynomial (3n-n³ outlet profile vx,out = V0 where n =, as shown below, 2 Vo 8 ویر Vo A control volume has been defined which has a height 8 and width W (into the plane of the paper). If the plate has a width b determine a relationship for the volumetric flowrate Q across the top surface of the control volume as a function of vo, 8, and W.

Elements Of Electromagnetics
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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2. An incompressible fluid flows past a stationary flat plate with uniform inlet profile and a polynomial outlet profile Vx,out = 20 (³¹-7²), where 2 VO 8 y M as shown below, = 9 fo A control volume has been defined which has a height 8 and width W (into the plane of the paper). If the plate has a width b determine a relationship for the volumetric flowrate Q across the top surface of the control volume as a function of vo, 8, and W.
Transcribed Image Text:2. An incompressible fluid flows past a stationary flat plate with uniform inlet profile and a polynomial outlet profile Vx,out = 20 (³¹-7²), where 2 VO 8 y M as shown below, = 9 fo A control volume has been defined which has a height 8 and width W (into the plane of the paper). If the plate has a width b determine a relationship for the volumetric flowrate Q across the top surface of the control volume as a function of vo, 8, and W.
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