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! Required information Consider the incompressible viscous flow of air between two infinitely long parallel plates separated by a distance h. The bottom plate is stationary, and the top plate is moving at the constant velocity up in the direction of the plate. Assume that no pressure gradient exists in the flow direction. If T= constant = 316 K, ue = 30 m/s, and h= 0.01 m, calculate the shear stress on the top and bottom plates. (Round the final answer to two decimal places.) The shear stress (7) on the top and bottom plates is 6.93 ✪ × 10-2 N/m².

! Required information Consider the incompressible viscous flow of air between two infinitely long parallel plates separated by a distance h. The bottom plate is stationary, and the top plate is moving at the constant velocity up in the direction of the plate. Assume that no pressure gradient exists in the flow direction. If T= constant = 316 K, ue = 30 m/s, and h= 0.01 m, calculate the shear stress on the top and bottom plates. (Round the final answer to two decimal places.) The shear stress (7) on the top and bottom plates is 6.93 ✪ × 10-2 N/m².

Elementary Geometry For College Students, 7e
Elementary Geometry For College Students, 7e
7th Edition
ISBN:9781337614085
Author:Alexander, Daniel C.; Koeberlein, Geralyn M.
Publisher:Alexander, Daniel C.; Koeberlein, Geralyn M.
Chapter9: Surfaces And Solids
Section9.3: Cylinders And Cones
Problem 6E: Suppose that r=12 cm and h=15 cm in the right circular cylinder. Find the exact and approximate a...
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! Required information Consider the incompressible viscous flow of air between two infinitely long parallel plates separated by a distance h. The bottom plate is stationary, and the top plate is moving at the constant velocity up in the direction of the plate. Assume that no pressure gradient exists in the flow direction. If T= constant = 316 K, ue = 30 m/s, and h= 0.01 m, calculate the shear stress on the top and bottom plates. (Round the final answer to two decimal places.) The shear stress (7) on the top and bottom plates is 6.93 ✪ × 10-2 N/m².
Transcribed Image Text:! Required information Consider the incompressible viscous flow of air between two infinitely long parallel plates separated by a distance h. The bottom plate is stationary, and the top plate is moving at the constant velocity up in the direction of the plate. Assume that no pressure gradient exists in the flow direction. If T= constant = 316 K, ue = 30 m/s, and h= 0.01 m, calculate the shear stress on the top and bottom plates. (Round the final answer to two decimal places.) The shear stress (7) on the top and bottom plates is 6.93 ✪ × 10-2 N/m².
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