can you please find the solution for this question )Water @10 C flows down through a 53.13-deg., Inclined, converging pipe section as shown.The flow rate, Q is 260 L/c.The Inlet pressura, P. Is 68.2 kPa.The langth of the pipe section, L, is 6.00 m.All dlamaterc aro Inclde plpe dlametors (ID'E).Accumo thero are no loccet In the plpe ceotion.5)Calculate the velocity at the Iniet (V) and the velocity at the outlet (V) in units of m/s.Sketch the pipe section, label the zdatum, and label the boundary conditions (P, Vand z) at 1 and 2. Provide valucs and units for the given and calculated boundary conditions. Note P is calculated in part el.Calculate the pressure at the outiet, P in units of kPa.As shown in tass, calculate the change in the energy terms (In units of m) and describe how the flow energy is transtormed going from 1 to 2 (e.g. Calculate APressure Energy-APPE, AKinetic Energy-AKE, and APotential Energy-APE: what Increases,d)what decreases, and by how much?).D, = 400 mm53.13°D, = 250 mmMorinum ti size 400B mAximum.ndmL=5.00 m

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)Water 10°c flows down through a 53.13 deg, nclined, converging pipe section as shown. The fiow rate, Q, is 260 L/G. The Inlet pressura, P. la 68.2 kPa. The langth of the pipe section, L, is 6.00 m. All dlametere are Incide plpe diametere (10'E), Accume there are no loccet In the pipe ceotion. Calculate the velocity at the Inlet (V) and the velocity at the outlet (V) in units of m/s. b) Sketch the plpe section, label the zdatum, and label the boundary conditions (P, Vand z) at 1 and 2. Provide values and units for the given and calculated boundary conditions. Note P is calculated in part c. Calculate the pressure at the outiet, Pin units of kPa JAs shown in class, calculate the change in the energy terms (in units of m) and describe how the fiow energy is transformed going from 1 to 2 (eg Calculate APressure EnergyAPrE, AKinetic EnergyAKE, and APotential Energy-APE what Increases, what decreases, and by how much?). 6. D, = 400 mm 53.13° D, = 250 mm Mmum fu st 400MB mamu.tenbasoftie L= 5.00 m

)Water 10°c flows down through a 53.13 deg, nclined, converging pipe section as shown. The fiow rate, Q, is 260 L/G. The Inlet pressura, P. la 68.2 kPa. The langth of the pipe section, L, is 6.00 m. All dlametere are Incide plpe diametere (10'E), Accume there are no loccet In the pipe ceotion. Calculate the velocity at the Inlet (V) and the velocity at the outlet (V) in units of m/s. b) Sketch the plpe section, label the zdatum, and label the boundary conditions (P, Vand z) at 1 and 2. Provide values and units for the given and calculated boundary conditions. Note P is calculated in part c. Calculate the pressure at the outiet, Pin units of kPa JAs shown in class, calculate the change in the energy terms (in units of m) and describe how the fiow energy is transformed going from 1 to 2 (eg Calculate APressure EnergyAPrE, AKinetic EnergyAKE, and APotential Energy-APE what Increases, what decreases, and by how much?). 6. D, = 400 mm 53.13° D, = 250 mm Mmum fu st 400MB mamu.tenbasoftie L= 5.00 m

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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