3. A Newtonian fluid having a specific gravity of 0.92 and a kinematic viscosity of 4.6 x 104 m/s flows past a fixed surface. Due to the no-slip condition, the velocity at the fixed surface is zero, and the velocity near the surface is shown in Fig.3. Determine the magnitude and direction of the shearing stress developed at the plate. Express your answer in terms of U and 8, with U and d expressed in units of meters per second and meters, respectively. For the density of water use 1000 kg/m'. Fig. 3.
3. A Newtonian fluid having a specific gravity of 0.92 and a kinematic viscosity of 4.6 x 104 m/s flows past a fixed surface. Due to the no-slip condition, the velocity at the fixed surface is zero, and the velocity near the surface is shown in Fig.3. Determine the magnitude and direction of the shearing stress developed at the plate. Express your answer in terms of U and 8, with U and d expressed in units of meters per second and meters, respectively. For the density of water use 1000 kg/m'. Fig. 3.
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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Transcribed Image Text:3. A Newtonian fluid having a specific gravity of 0.92 and a kinematic viscosity of 4.6 x 104 m/s
flows past a fixed surface. Due to the no-slip condition, the velocity at the fixed surface is zero,
and the velocity near the surface is shown in Fig.3. Determine the magnitude and direction of the
shearing stress developed at the plate. Express your answer in terms of U and ð, with U and o
expressed in units of meters per second and meters, respectively. For the density of water use 1000
kg/m.
Fig. 3.
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