5. [Ch4 - 3] For the hydraulic system (shown in figure), the following data are given:The pump is adding 3.73 kW to the fluid.• Pump flow is 2 x 10-3 m /s.• The pipe has a 25-mm inside diameter.HYDRAULICMOTORA0LOAD• The specific gravity of oil is 0.9.• The kinematic viscosity of oil is 100 cS. sTO. ELBOW(1 cS - 10-6 m/s)• The elevation difference between stationsI and 2 is 6 m.PUMPELECTRICMOTORVENTELEVATIONOIL LEVEL• Pipe lengths are as follows: pump inletpipe length = 1.5 m and pump outlet pipelength up to hydraulic motor 5 m.The pressure at the oil top surface level in the hydraulic tank is atmospheric (0 Pa gage).Find the pressure available at the inlet to the hydraulic motor (station 2).

Given: Q=2×10-3 m3/sd=25×10-3 m

5. [Ch4 – 3] For the hydraulic system (shown in figure), the following data are given: • The pump is adding 3.73 kW to the fluid. • Pump flow is 2 x 10-3 m' /s. • The pipe has a 25-mm inside diameter. • The specific gravity of oil is 0.9. • The kinematic viscosity of oil is 100 cS. sm ow (1 eS- 10-6 m/s) • The elevation difference between stations I and 2 is 6 m. wORA LOAD ELECTRIC PUMP M MOTOR EEVATON • Pipe lengths are as follows: pump inlet

5. [Ch4 – 3] For the hydraulic system (shown in figure), the following data are given: • The pump is adding 3.73 kW to the fluid. • Pump flow is 2 x 10-3 m' /s. • The pipe has a 25-mm inside diameter. • The specific gravity of oil is 0.9. • The kinematic viscosity of oil is 100 cS. sm ow (1 eS- 10-6 m/s) • The elevation difference between stations I and 2 is 6 m. wORA LOAD ELECTRIC PUMP M MOTOR EEVATON • Pipe lengths are as follows: pump inlet

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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