A thin flat plate is positioned in a wind tunnel parallel to the wind direction. A gas flows past this plate with a velocity of V = 1.6m/s. Assuming that the whole boundary layer is laminar, determine the kinematic viscosity of the gas if the boundary layer thickness is 12mm at a distance of x = 85cm along the plate. Kinematic Viscosity = m²/s. (Provide your answer to 6 decimal places)
A thin flat plate is positioned in a wind tunnel parallel to the wind direction. A gas flows past this plate with a velocity of V = 1.6m/s. Assuming that the whole boundary layer is laminar, determine the kinematic viscosity of the gas if the boundary layer thickness is 12mm at a distance of x = 85cm along the plate. Kinematic Viscosity = m²/s. (Provide your answer to 6 decimal places)
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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and and Very very grateful!
Transcribed Image Text:A thin flat plate is positioned in a wind tunnel parallel to the wind direction. A gas flows past this plate with a velocity of V = 1.6m/s. Assuming that the whole boundary layer is laminar, determine the
kinematic viscosity of the gas if the boundary layer thickness is 12mm at a distance of x = 85cm along the plate.
Kinematic Viscosity =
m²/s. (Provide your answer to 6 decimal places)
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