1.39. Air flowing in a 4m x 6m rectangular duct has the following idealized velocity distribution: )"* (1 - )"*, x\1/4 1/5 V(x, y) = 35 (1 – where x and y are distances in meters measured from the center of the duct and V is in m/s. Calculate the average velocity, the volume flow rate, and the kinetic energy correction factor. You may use either numerical calculation or analytic calculation. If you use numerical, the discretization error should be <1%.
1.39. Air flowing in a 4m x 6m rectangular duct has the following idealized velocity distribution: )"* (1 - )"*, x\1/4 1/5 V(x, y) = 35 (1 – where x and y are distances in meters measured from the center of the duct and V is in m/s. Calculate the average velocity, the volume flow rate, and the kinetic energy correction factor. You may use either numerical calculation or analytic calculation. If you use numerical, the discretization error should be <1%.
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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![1.39. Air flowing in a 4m x 6m rectangular duct has the following
idealized velocity distribution:
1/5
V&,y) = 35 (1 – )* (1 - })"s,
x\1/4
V (x,y) = 35 (1 -
where x and y are distances in meters measured from the center of
the duct and V is in m/s. Calculate the average velocity, the volume
flow rate, and the kinetic energy correction factor. You may use either
numerical calculation or analytic calculation. If you use numerical,
the discretization error should be <1%.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Feddb891f-e372-4750-8c2c-984e0972db8e%2F5c312aa9-9c42-4feb-ace3-7ba8043e741e%2Fy8t3ng_processed.png&w=3840&q=75)
Transcribed Image Text:1.39. Air flowing in a 4m x 6m rectangular duct has the following
idealized velocity distribution:
1/5
V&,y) = 35 (1 – )* (1 - })"s,
x\1/4
V (x,y) = 35 (1 -
where x and y are distances in meters measured from the center of
the duct and V is in m/s. Calculate the average velocity, the volume
flow rate, and the kinetic energy correction factor. You may use either
numerical calculation or analytic calculation. If you use numerical,
the discretization error should be <1%.
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