Q2: A) Assuming linear variation of velocity in the boundary layer i.e. (u/u) =(y/6), up to y= 6 and then u = u., determine using the integral momentum equation, the boundary layer thickness. B) The temperature ratio: [T,-T)/(Ts-T)] = sin (zy/0.015) in flow over a flat plate. If k = 0.03 W/m.K, determine the value of convective heat transfer coefficient.
Q2: A) Assuming linear variation of velocity in the boundary layer i.e. (u/u) =(y/6), up to y= 6 and then u = u., determine using the integral momentum equation, the boundary layer thickness. B) The temperature ratio: [T,-T)/(Ts-T)] = sin (zy/0.015) in flow over a flat plate. If k = 0.03 W/m.K, determine the value of convective heat transfer coefficient.
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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![Q2: A) Assuming linear variation of velocity in the boundary layer i.e.
(u/u) =(y/6), up to y= 8 and then u = u, determine using the integral momentum
equation, the boundary layer thickness.
B) The temperature ratio:
[T,-T)/(T, -T)] = sin (zy/0.015) in flow over a flat plate. If k = 0.03 W/m.K,
determine the value of convective heat transfer coefficient.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe0c28cd3-2e9d-4e76-b9c5-77194d215c69%2Fe03e2bbf-9af4-4e16-8324-d380f8f46eec%2Fc9xl4q2_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q2: A) Assuming linear variation of velocity in the boundary layer i.e.
(u/u) =(y/6), up to y= 8 and then u = u, determine using the integral momentum
equation, the boundary layer thickness.
B) The temperature ratio:
[T,-T)/(T, -T)] = sin (zy/0.015) in flow over a flat plate. If k = 0.03 W/m.K,
determine the value of convective heat transfer coefficient.
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