Water with a density of 999.1 kg/m3 and absolute viscosity of 1.138 X 10-3 kg/m·s is flowing steadily in a 30-m-long and 4-cm-diameter horizontal pipe made of stainless steel at a rate of 8 L/s. the pumping power (KW) requirement to overcome this pressure drop within the span of the pipe. If the flow is laminar, use the figure below to calculate f. If the flow is turbulent,    use 0.01573 as the value for f. use 0.01573 as the value for f.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Water with a density of 999.1 kg/m3 and absolute viscosity of 1.138 X 10-3 kg/m·s is flowing steadily in a 30-m-long and 4-cm-diameter horizontal pipe made of stainless steel at a rate of 8 L/s. the pumping power (KW) requirement to overcome this pressure drop within the span of the pipe. If the flow is laminar, use the figure below to calculate f. If the flow is turbulent, 

 

use 0.01573 as the value for f.

use 0.01573 as the value for f.

Water with a density of 999.1 kg/m³ and absolute viscosity of 1.138
X 10-3 kg/m-s is flowing steadily in a 30-m-long and 4-cm-diameter
horizontal pipe made of stainless steel at a rate of 8 L/s. the pumping
power (KW) requirement to overcome this pressure drop within the
span of the pipe. If the flow is laminar, use the figure below to
calculate f. If the flow is turbulent, use 0.01573 as the value for f.
Friction Factor
Tube Geometry
Circle
64.00/Re
Transcribed Image Text:Water with a density of 999.1 kg/m³ and absolute viscosity of 1.138 X 10-3 kg/m-s is flowing steadily in a 30-m-long and 4-cm-diameter horizontal pipe made of stainless steel at a rate of 8 L/s. the pumping power (KW) requirement to overcome this pressure drop within the span of the pipe. If the flow is laminar, use the figure below to calculate f. If the flow is turbulent, use 0.01573 as the value for f. Friction Factor Tube Geometry Circle 64.00/Re
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