Fixed wall 2) A thin 40-cm X 40-cm flat plate is pulled at 2 m/s horizontally through a 3.6 mm thick oil layer sandwiched between two plates, as shown in the figure. The dynamic viscosity of oil is 0.027 Pa.s. Assuming the velocity profile to be linear, (a) plot the velocity profile and find the location where the oil velocity is zero and (b) determine the force F needed to = 1 mm V= 2 m/s F h2 = = 2.6 mm V = 0.3 m/s Moving wall
Fixed wall 2) A thin 40-cm X 40-cm flat plate is pulled at 2 m/s horizontally through a 3.6 mm thick oil layer sandwiched between two plates, as shown in the figure. The dynamic viscosity of oil is 0.027 Pa.s. Assuming the velocity profile to be linear, (a) plot the velocity profile and find the location where the oil velocity is zero and (b) determine the force F needed to = 1 mm V= 2 m/s F h2 = = 2.6 mm V = 0.3 m/s Moving wall
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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A thin 40-cm X 40-cm flat plate is pulled at 2 m/s horizontally through a 3.6 mm thick oil layer sandwiched between two plates, as shown in the figure. The dynamic viscosity of oil is 0.027 Pa.s. Assuming the velocity profile to be linear, (a) plot the velocity profile and find the location where the oil velocity is zero and (b) determine the force F needed to maintain the motion
Transcribed Image Text:2) A thin 40-cm X 40-cm flat plate is pulled at
2 m/s horizontally through a 3.6 mm thick oil
layer sandwiched between two plates, as
shown in the figure. The dynamic viscosity of
oil is 0.027 Pa.s. Assuming the velocity profile
to be linear, (a) plot the velocity profile and
find the location where the oil velocity is zero
and (b) determine the force F needed to
maintain the motion.
Fixed wall
= 1 mm
V= 2 m/s
F
h, = 2.6 mm
V = 0.3 m/s
Moving wall
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