Oil SAE 30 at 15.6 °C flows steadily through the 2 mm gap between two fixed, horizontal, parallel plates. A U-tube manometer indicates a differential reading of 100 mm. The fluid in the manometer is mercury. Take YHg = 133 kN/m', Yo 8.95 kN/m' and lo =0.38 N s/m2. (a) Determine the pressure drop from A to B. (b) Calculate the volume flow rate per unit width, q. (c) Check if the flow is laminar. B. 2 mm 100 mm mercury

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Oil SAE 30 at 15.6 °C flows steadily through the 2 mm gap between two fixed, horizontal,
parallel plates. A U-tube manometer indicates a differential reading of 100 mm. The fluid in
the manometer is mercury. Take YHg = 133 kN/m', Yo = 8.95 kN/m' and uo = 0.38 N s/m2.
(a) Determine the pressure drop from A to B.
(b) Calculate the volume flow rate per unit width,q.
(c) Check if the flow is laminar.
B
2 mm
100 mm
mercury
Transcribed Image Text:Oil SAE 30 at 15.6 °C flows steadily through the 2 mm gap between two fixed, horizontal, parallel plates. A U-tube manometer indicates a differential reading of 100 mm. The fluid in the manometer is mercury. Take YHg = 133 kN/m', Yo = 8.95 kN/m' and uo = 0.38 N s/m2. (a) Determine the pressure drop from A to B. (b) Calculate the volume flow rate per unit width,q. (c) Check if the flow is laminar. B 2 mm 100 mm mercury
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