A water pump operating at steady state has 76 mm diameter inlet and exit pipes, each at the same elevation. The water can be modeled as incompressible and its temperature remains constant at 20°C. For a power input of 1.5 kW, determine the pressure rise from inlet to exit, in kPa at the volumetric flow rate of A m/s (A=0.015 m/s, 0.017 m/s, 0.02 m³/s). Plot the A- the pressure rise from inlet to exit in graph.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A water pump operating at steady state has 76 mm diameter inlet and exit pipes, each at the
same elevation. The water can be modeled as incompressible and its temperature remains
constant at 20°C. For a power input of 1.5 kW, determine the pressure rise from inlet to
exit, in kPa at the volumetric flow rate of A m/s (A=0.015 m/s, 0.017 m/s, 0.02 m/s).
Plot the A- the pressure rise from inlet to exit in graph.
Transcribed Image Text:A water pump operating at steady state has 76 mm diameter inlet and exit pipes, each at the same elevation. The water can be modeled as incompressible and its temperature remains constant at 20°C. For a power input of 1.5 kW, determine the pressure rise from inlet to exit, in kPa at the volumetric flow rate of A m/s (A=0.015 m/s, 0.017 m/s, 0.02 m/s). Plot the A- the pressure rise from inlet to exit in graph.
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