Water flows steady through the piping junction as shown below, as it enters section 1 at 20 gpm. The average velocity at section 2 is 1.5 m/s. A portion of the flow is diverted through the showerhead, which has 100 holes of 1- mm diameter. Assuming uniform flow through the showerhead, calculate (a) the flow rate at section 2, and (b) the exit velocity from the showerhead holes. O d = 2 cm e d2 = 2 cm
Water flows steady through the piping junction as shown below, as it enters section 1 at 20 gpm. The average velocity at section 2 is 1.5 m/s. A portion of the flow is diverted through the showerhead, which has 100 holes of 1- mm diameter. Assuming uniform flow through the showerhead, calculate (a) the flow rate at section 2, and (b) the exit velocity from the showerhead holes. O d = 2 cm e d2 = 2 cm
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Find the flow rate (gpm) and the exit velocity from the showerhead holes (m/s).
![Water flows steady through the piping junction as shown below, as it enters section 1 at 20 gpm. The average
velocity at section 2 is 1.5 m/s. A portion of the flow is diverted through the showerhead, which has 100 holes of 1-
mm diameter. Assuming uniform flow through the showerhead, calculate
(a) the flow rate at section 2, and
(b) the exit velocity from the showerhead holes.
O d1 = 2 cm
e d2 = 2 cm](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4260a983-6610-4376-a0a2-5cec519ba745%2F6e36ad97-3949-4c85-bab9-d6e7a11cde4d%2Fp32ab6_processed.png&w=3840&q=75)
Transcribed Image Text:Water flows steady through the piping junction as shown below, as it enters section 1 at 20 gpm. The average
velocity at section 2 is 1.5 m/s. A portion of the flow is diverted through the showerhead, which has 100 holes of 1-
mm diameter. Assuming uniform flow through the showerhead, calculate
(a) the flow rate at section 2, and
(b) the exit velocity from the showerhead holes.
O d1 = 2 cm
e d2 = 2 cm
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