HW6_Question 2. Consider fully developed laminar flow in the annulus between two concentric pipes. The radius of the two pipes are r, and rị. The outer pipe is stationary, and the inner pipe moves in the x direction with speed Vo. Assume the axial pressure gradient is zero: Obtain an expression for the velocity profile, u(r), and find out the value of u(r) in the middle of the annulus: ro+r; (r = ") 2 ro=2 cm, r;=1 cm, Vo = 0.3 m/s.

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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HW6_Question 2. Consider fully developed laminar flow in the annulus between two concentric pipes. The
radius of the two pipes are ro and rj. The outer pipe is stationary, and the inner pipe moves in the x direction
with speed Vo. Assume the axial pressure gradient is zero:
%3D
• Öx
Obtain an expression for the velocity profile, u(r), and find out the value of u(r) in the middle of the annulus:
(r = )
ro=2 cm, r;=1 cm, Vo = 0.3 m/s.
Transcribed Image Text:HW6_Question 2. Consider fully developed laminar flow in the annulus between two concentric pipes. The radius of the two pipes are ro and rj. The outer pipe is stationary, and the inner pipe moves in the x direction with speed Vo. Assume the axial pressure gradient is zero: %3D • Öx Obtain an expression for the velocity profile, u(r), and find out the value of u(r) in the middle of the annulus: (r = ) ro=2 cm, r;=1 cm, Vo = 0.3 m/s.
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