Consider a laminar flow between two large parallel plates placed h= 0.7 mm apart. The surface area of each plate is A=0.86 m2. The lower plate is stationary, and the upper plate moves at constant velocity U= 0.34 m/s. Assuming a linear velocity profile between the two plates, determine th shear force, in N, on the inner surface of the upper plate? Fluid dynamic viscosity: µ=0.008 Pa.s. Keep TWO decimal points in your answer.
Consider a laminar flow between two large parallel plates placed h= 0.7 mm apart. The surface area of each plate is A=0.86 m2. The lower plate is stationary, and the upper plate moves at constant velocity U= 0.34 m/s. Assuming a linear velocity profile between the two plates, determine th shear force, in N, on the inner surface of the upper plate? Fluid dynamic viscosity: µ=0.008 Pa.s. Keep TWO decimal points in your answer.
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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Please solve the following fluid mechanics questions
Transcribed Image Text:Consider a laminar flow between two large parallel plates
placed h= 0.7 mm apart. The surface area of each plate is
A=0.86 m2. The lower plate is stationary, and the upper
plate moves at constant velocity U= 0.34 m/s. Assuming a
linear velocity profile between the two plates, determine the
shear force, in N, on the inner surface of the upper plate?
Fluid dynamic viscosity: µ=0.008 Pa.s. Keep TVWO decimal
points in your answer.
Question 5
3 pts
étv A
Transcribed Image Text:Consider a thin flat plate pulled horizontally through an oil
layer sandwiched between two plates: one stationary and
he other moving at a constant velocity of 2.3 m/s. The gaps
between the three plates are h,=3 mm, and h2=7 mm. The
dynamic viscosity of oil is 0.06 Pa-s. Assuming the velocity in
each oil layer to vary linearly, what is the shear stress, in Pa,
on the flat plate moving at constant 4.8 m/s? Keep ONE
decimal point in your answer.
Fixed wall
hy
V
Moving wall
Question 6
3 pts
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