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Question 1 : a . Prove that the velocity profile for a laminar flow in an infinite circular pipe, if the fluid behaves as a

Question1:
a. Prove that the velocity profile for a laminar flow in an infinite circular pipe, if the
fluid behaves as a power-law fluid, is given by:
vz(r)=nn+1(dpdz2k)1n[((Rp)n+1n)-((r)n+1n)]
The viscosity law for a power-law fluid is given by:
r=k(-dvdr)n
Where k and n are constants.
b. From the velocity profile above, estimate the average (bulk) velocity of fluid.
c. Compare your solution with the worked example of "Laminar flow in an infinite
circular pipe" in your student guide and discuss the differences in terms of velocity
profile.
Hint: Start your solution using the z-component of the equation of motion in cylindrical
coordinates in terms of shear stress ().
Answer (a)(b) and (c)
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