An oil with specific gravity of 0.9 and kinematic viscosity of 0.0002 m²/s flows upward through an inclined pipe as shown below. The pressure and elevation are known at sections 1 and 2, 10 m apart. Assuming steady laminar flow, (a) verify that the flow is up, (b) compute hr between 1 and 2, (c) compute discharge Q, (d) compute the average velocity and (e) the Reynolds number.

Elements Of Electromagnetics
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l MIN
5:23 AM
93%
An oil with specific gravity of 0.9 and kinematic viscosity of 0.0002 m²/s flows upward
through an inclined pipe as shown below. The pressure and elevation are known at
sections 1 and 2, 10 m apart. Assuming steady laminar flow, (a) verify that the flow is up,
(b) compute ht between 1 and 2, (c) compute discharge Q, (d) compute the average
velocity and (e) the Reynolds number.
10m
P,- 250D,O00 Pa
P-350,O0O Pa, z -0
Transcribed Image Text:l MIN 5:23 AM 93% An oil with specific gravity of 0.9 and kinematic viscosity of 0.0002 m²/s flows upward through an inclined pipe as shown below. The pressure and elevation are known at sections 1 and 2, 10 m apart. Assuming steady laminar flow, (a) verify that the flow is up, (b) compute ht between 1 and 2, (c) compute discharge Q, (d) compute the average velocity and (e) the Reynolds number. 10m P,- 250D,O00 Pa P-350,O0O Pa, z -0
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