Consider a steady, incompressible, U y=+h hydrodynamically fully-developed flow between two infinite flat plates as shown. The flow can be described by the following equation: K y=-h 2U -y²+C,y+C; 2µ where u is the dynamic viscosity, u is the axial velocity (i.e., the velocity in x-direction), and K C. ond C. tonte

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Consider a steady, incompressible,
y=+h
↑y
hydrodynamically fully-developed flow between two
infinite flat plates as shown. The flow can be described
by the following equation:
y=-h
2U
K
-y² +C¸y+C,
2µ
where u is the dynamic viscosity, u is the axial velocity (i.e., the velocity in x-direction), and
K, Cı, and C2 are constants.
(a) Obtain the velocity profile u(y) in terms of h, U, K, µ̟ and y.
(b) For what value of K is the shear stress zero at y=h/2. Consider h=0.01 mm, U=0.1 mm/s,
and u=0.001 Pa.s
Transcribed Image Text:Consider a steady, incompressible, y=+h ↑y hydrodynamically fully-developed flow between two infinite flat plates as shown. The flow can be described by the following equation: y=-h 2U K -y² +C¸y+C, 2µ where u is the dynamic viscosity, u is the axial velocity (i.e., the velocity in x-direction), and K, Cı, and C2 are constants. (a) Obtain the velocity profile u(y) in terms of h, U, K, µ̟ and y. (b) For what value of K is the shear stress zero at y=h/2. Consider h=0.01 mm, U=0.1 mm/s, and u=0.001 Pa.s
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