Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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ANSWER IS 0.0512m3 /s show steps on how to reach this
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- 1 QUESTION 1 Consider a desired pump operating condition which adds 35 psi at a flowrate of 500 gpm to water (p= 62 11m/ft²³) Ignore any changes in Kinetic or potential energy and Tassume isothermal flow C.e. internal energy is constant, this is the normal assumption we make when analyzing fluid flows in piping systems). Apply the energy balance only across the pump with full energy Balance and simlifying to solve for the pump, Starting head symbolically. Then begin careful of units, Solve for pump head in feet. GIVEN: 35psi 500 gpm p=62 1bm/3 XA. 10.5 A B. 100.8 ft C. 50.1 ft D. 80.7f 35 500 62 (32.2) + 2(32.2) 35 + 500arrow_forwardProb-2 HL=8.5 m Compute discharge pressure of Pump: Elevation=50m Psuction =-40Kpag Pdischarge = Elevation=80m H₂Oarrow_forwardProvide a complete solution and answer for the given problem in the attached image.arrow_forward
- 2. Calculate the discharge through the 140-mm diameter orifice shown. Assume C = 0.62. A B Air 50 kPa 15 kPa Air 3 m Waterarrow_forwardQ3) Compute the ideal flow rate through the pipe system shown in Fig. 8-37. 1.2 m 200 mm 100 mm 0.6 m Fig. 8-37arrow_forwardthe hydraulic radius of a pipe with a diameter of 12mm isarrow_forward
- Convert 50 GPM to ft/s in a 4" Sch 40 pipearrow_forwardCalculate the diameter of pipe if, flow rate is 20 I/min and flow velocity is 5 cm/s. Select one: O a. 9.2 cm O b. 92 cm O c.0.92 cm O d. 0.092 cmarrow_forwardHydraulic pump calculations Pressure = 600 PSIDisplacement (D) = 0.4in3/rev1150 RPM Total efficiency = 72%Mechanical efficiency = 90% a) Calculate the theoretical flow rate of the pump in GPM b) Calculate the actual flow rate of the pump in GPM c) Calculate the hydraulic power (HP)arrow_forward
- What F is required to hold the plate for oil flow sp. gr. 0.83, for Vo=25 m/s.arrow_forwardFind the friction for water at 60°C flowing at 0.0057 m³/s in a 4 in Sch 40 steel pipe.Answer to 3 decimal placearrow_forwardCompute the time required to reduce the depth in the tank shown in Fig. 6.14 by 1.50 m if the original depth is 2.68 m. The tank diameter is 2.25 m and the orifice diam- eter is 50 mm.arrow_forward
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