Water flows through the 50 cm diameter pipe to which the static pressure gauge and mercury manometer (pitot tube) are connected. The specific gravity of mercury and water is 133.600 N / m3 and 9810 N / m3, respectively. Calculate the height difference on the manometer since the linear flow rate of the water in the pipe is 4.5 m / sec. (If it needs to be used, gravitational acceleration g = 9.8 m / s2)
Water flows through the 50 cm diameter pipe to which the static pressure gauge and mercury manometer (pitot tube) are connected. The specific gravity of mercury and water is 133.600 N / m3 and 9810 N / m3, respectively. Calculate the height difference on the manometer since the linear flow rate of the water in the pipe is 4.5 m / sec. (If it needs to be used, gravitational acceleration g = 9.8 m / s2)
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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Water flows through the 50 cm diameter pipe to which the static pressure gauge and mercury manometer (pitot tube) are connected. The specific gravity of mercury and water is 133.600 N / m3 and 9810 N / m3, respectively. Calculate the height difference on the manometer since the linear flow rate of the water in the pipe is 4.5 m / sec. (If it needs to be used, gravitational acceleration g = 9.8 m / s2)
Transcribed Image Text:10 342 Pa
60 cm
akış
50 cm
50.8 cm
Su
X= ?
Civa
Transcribed Image Text:10 342 Pa
60 cm
akış
50 cm
50.8 cm
口
Su
X= ?
Civa
个个个1
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