Asap plzzzzz operates a water hose with a round nozzle ofdiameter 1.45 inch. The lower end of the hose(8.8 m below the nozzle) is connected to thepump outlet of diameter 2.62 inch. The gaugepressure of the water at the pump isp(gauge)pumpp() - Patm=pump- 71 PSI 489.528 kPa.-Calculate the speed of the water jet emerg-ing from the nozzle. Assume that water is anincompressible liquid of density 1000 kg/m³and negligible viscosity. The acceleration ofgravity is 9.8 m/s².Answer in units of m/s. A fireman standingon an 8.8 m high ladder

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operates a water hose with a round nozzle of diameter 1.45 inch. The lower end of the hose (8.8 m below the nozzle) is connected to the pump outlet of diameter 2.62 inch. The gauge pressure of the water at the pump is p(gauge) pump (aba) = Ppump - Patm = 71 PSI 489.528 kPa. = 3 Calculate the speed of the water jet emerg- ing from the nozzle. Assume that water is an incompressible liquid of density 1000 kg/m³ and negligible viscosity. The acceleration of gravity is 9.8 m/s². Answer in units of m/s.

operates a water hose with a round nozzle of diameter 1.45 inch. The lower end of the hose (8.8 m below the nozzle) is connected to the pump outlet of diameter 2.62 inch. The gauge pressure of the water at the pump is p(gauge) pump (aba) = Ppump - Patm = 71 PSI 489.528 kPa. = 3 Calculate the speed of the water jet emerg- ing from the nozzle. Assume that water is an incompressible liquid of density 1000 kg/m³ and negligible viscosity. The acceleration of gravity is 9.8 m/s². Answer in units of m/s.

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Question

Asap plzzzzz

operates a water hose with a round nozzle of
diameter 1.45 inch. The lower end of the hose
(8.8 m below the nozzle) is connected to the
pump outlet of diameter 2.62 inch. The gauge
pressure of the water at the pump is
p(gauge)
pump
p() - Patm
=
pump
- 71 PSI 489.528 kPa.
-
Calculate the speed of the water jet emerg-
ing from the nozzle. Assume that water is an
incompressible liquid of density 1000 kg/m³
and negligible viscosity. The acceleration of
gravity is 9.8 m/s².
Answer in units of m/s.

A fireman standing
on an 8.8 m high ladder

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