An oil with density of 900 kg/m and kinematic viscosity of 0.0002 m²/s, flows upward through an inclined pipe. Assuming the flow is steady and laminar, determine the head loss due to the friction and the flow rate of the liquid. Is the flow is really laminar?

An oil with density of 900 kg/m and kinematic viscosity of 0.0002 m²/s, flows upward through an inclined pipe. Assuming the flow is steady and laminar, determine the head loss due to the friction and the flow rate of the liquid. Is the flow is really laminar?

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Telegram%20Desktop/Tutorial%205_Laminar%20and%20Turbulent%20flow%20in%20circular%20pipes.pdf
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7. An oil with density of 900 kg/m³ and kinematic viscosity of 0.0002 m²/s, flows upward through an
inclined pipe. Assuming the flow is steady and laminar, determine the head loss due to the friction
and the flow rate of the liquid. Is the flow is really laminar?
d=6 cm
10 m
e.v
P,=250,000 Pa
40
P,= 350,000 Pa, z, =0

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