Problem Solving: Input your final answer on the space provide. Water flows through the piping junction, entering section 1 at 20 US gallons/min (1 US gal = 3.78 L). The average velocity at section 2 is 2.5 m/s. A portion of the flow is diverted through the shower head, which contains 100 holes of 1-mm diameter. Assuming uniform shower flow, estimate the exit velocity from each hole of the the shower head. Answer should be in m/s. d = 4 cm (3) d = 1.5 cm ,d = 2 cm (1)
Problem Solving: Input your final answer on the space provide. Water flows through the piping junction, entering section 1 at 20 US gallons/min (1 US gal = 3.78 L). The average velocity at section 2 is 2.5 m/s. A portion of the flow is diverted through the shower head, which contains 100 holes of 1-mm diameter. Assuming uniform shower flow, estimate the exit velocity from each hole of the the shower head. Answer should be in m/s. d = 4 cm (3) d = 1.5 cm ,d = 2 cm (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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Water flows through the piping junction, entering section 1 at 20 US gallons/min (1 US gal = 3.78 L). The average velocity at section 2 is 2.5 m/s. A portion of the flow is diverted through the shower head, which contains 100 holes of 1-mm diameter. Assuming uniform shower flow, estimate the exit velocity from each hole of the the shower head. Answer should be in m/s.
Transcribed Image Text:Problem Solving: Input your final answer on the space provide.
Water flows through the piping junction, entering section 1 at 20 US gallons/min (1 US gal = 3.78 L). The average velocity at section 2 is 2.5 m/s. A portion of the
flow is diverted through the shower head, which contains 100 holes of 1-mm diameter. Assuming uniform shower flow, estimate the exit velocity from each hole of
the the shower head. Answer should be in m/s.
d = 4 cm
(3)
d = 1.5 cm
,d = 2 cm
(1)
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