A horizontal pipe with diameter D (D = 0.08 m) connects a liquid-water storage tank to an open reservoir. The water in the storage tank is continuously replenished maintaining constant depth (h = 10 m). Ignoring losses and assuming steady flow: a. Determine the cross-sectional area of the horizontal pipe. [m²] b. Determine the water velocity, v, exiting the pipe into the reservoir. c. Determine the water mass flowrate, m, from the storage tank into the reservoir. d. Calculate the time required for 100,000 kg of water to flow into the reservoir. [minutes]

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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3. A horizontal pipe with diameter D (D = 0.08 m) connects a liquid-water storage tank to an open
reservoir. The water in the storage tank is continuously replenished maintaining constant depth, h
(h = 10 m). Ignoring losses and assuming steady flow:
a. Determine the cross-sectional area of the horizontal pipe. [m?]
b. Determine the water velocity, v, exiting the pipe into the reservoir.
c. Determine the water mass flowrate, m, from the storage tank into the reservoir.
d. Calculate the time required for 100,000 kg of water to flow into the reservoir. [minutes]
Additional information: Water density is 999 kg/m³ and gravitational acceleration is 9.81 m/s².
D]
Transcribed Image Text:3. A horizontal pipe with diameter D (D = 0.08 m) connects a liquid-water storage tank to an open reservoir. The water in the storage tank is continuously replenished maintaining constant depth, h (h = 10 m). Ignoring losses and assuming steady flow: a. Determine the cross-sectional area of the horizontal pipe. [m?] b. Determine the water velocity, v, exiting the pipe into the reservoir. c. Determine the water mass flowrate, m, from the storage tank into the reservoir. d. Calculate the time required for 100,000 kg of water to flow into the reservoir. [minutes] Additional information: Water density is 999 kg/m³ and gravitational acceleration is 9.81 m/s². D]
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