Oil relative density (rd = 0.88) flows in an inclined pipe at a rate of 0.15 m/s as shown in Fig. If the differential reading in the mercury manometer is 915 mm, calculate the power that the pump supplies to the oil if head losses are negligible. |Ql: A)Oil relative density (r.d = 0.88) flows in aninclined pipe at a rate of 0.15 m³/s as shown inFig. If the differential reading in the mercurymanometer is 915 mm, calculate the powerthat the pump supplies to the oil if head lossesare negligible.is cmOil30 cm915 mmHe

d1=30cmd2=15cmSoil=0.88Q=0.14m3/sec\V1=QA1=0.14π4×(0.3)2= 1.98m/secV2=QA2=0.14π4×(0.15)2=…

Answered: QI: À) Oil relative density (r.d =…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Oil relative density (rd = 0.88) flows in an inclined pipe at a rate of 0.15 m/s as shown in Fig. If the differential reading in the mercury manometer is 915 mm, calculate the power that the pump supplies to the oil if head losses are negligible.

|Ql: A)
Oil relative density (r.d = 0.88) flows in an
inclined pipe at a rate of 0.15 m³/s as shown in
Fig. If the differential reading in the mercury
manometer is 915 mm, calculate the power
that the pump supplies to the oil if head losses
are negligible.
is cm
Oil
30 cm
915 mm
He

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