Two parallel plates kept 295mm a part have laminar flow of oil . The lower plate is stationary and the upper plate is moving with 4.75m/s . find: a- velocity distribution formula. b- The value and position of the maximum velocity.c- The discharge per meter width. d- The shear stress at the plates. e- The difference in pressure between two points 50m apart. f- The velocity gradient at the plates. g- The velocity at 130 mm. Assume viscosity of oil to be 24.5 poise.

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
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Two parallel plates kept 295mm a part have laminar flow of oil . The lower plate is stationary and the upper plate is moving with 4.75m/s . find: a- velocity distribution formula. b- The value and position of the maximum velocity. c- The discharge per meter width. d- The shear stress at the plates. e- The difference in pressure between two points 50m apart. f- The velocity gradient at the plates. g- The velocity at 130 mm. Assume viscosity of oil to be 24.5 poise.
Two parallel plates kept 295mm a part have laminar flow of oil . The lower plate is
stationary and the upper plate is moving with 4.75m/s. find: a- velocity
distribution formula. b- The value and position of the maximum velocity.c- The
discharge per meter width. d- The shear stress at the plates. e- The difference in
pressure between two points 50m apart. f- The velocity gradient at the plates. g-
The velocity at 130 mm. Assume viscosity of oil to be 24.5 poise.
Transcribed Image Text:Two parallel plates kept 295mm a part have laminar flow of oil . The lower plate is stationary and the upper plate is moving with 4.75m/s. find: a- velocity distribution formula. b- The value and position of the maximum velocity.c- The discharge per meter width. d- The shear stress at the plates. e- The difference in pressure between two points 50m apart. f- The velocity gradient at the plates. g- The velocity at 130 mm. Assume viscosity of oil to be 24.5 poise.
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