2. A water hose with an internal cross section of 1.24 cm² is connected to a water tap. The hose leads to a height of 6 m above ground, where the water flows out of a nozzle and is collected in a pool. The pool fills up with 30L per minute. One meter above the ground, a pressure gauge is attached to the hose to measure the static pressure. The gauge indicates a pressure of 2 bar. The ambient air pressure is 1 bar. The flow is incompressible and inviscid. At what speed does the water come out of the nozzle? 2 decimal places, type number of your answer only. unit: in m/s
2. A water hose with an internal cross section of 1.24 cm² is connected to a water tap. The hose leads to a height of 6 m above ground, where the water flows out of a nozzle and is collected in a pool. The pool fills up with 30L per minute. One meter above the ground, a pressure gauge is attached to the hose to measure the static pressure. The gauge indicates a pressure of 2 bar. The ambient air pressure is 1 bar. The flow is incompressible and inviscid. At what speed does the water come out of the nozzle? 2 decimal places, type number of your answer only. unit: in m/s
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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Transcribed Image Text:2. A water hose with an internal cross section of 1.24 cm² is
connected to a water tap. The hose leads to a height of 6
m above ground, where the water flows out of a nozzle
and is collected in a pool. The pool fills up with 30L per
minute. One meter above the ground, a pressure gauge is
attached to the hose to measure the static pressure. The
gauge indicates a pressure of 2 bar. The ambient air
pressure is 1 bar. The flow is incompressible and inviscid.
At what speed does the water come out of the nozzle? 2
decimal places, type number of your answer only. unit: in
m/s
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