15-129. The water flow enters below the hydrant at C atthe rate of 0.75 m³/s. It is then divided equally between thetwo outlets at A and B. If the gauge pressure at Cis 300 kPa,determine the horizontal and vertical force reactions andthe moment reaction on the fixed support at C.The diameterof the two outlets at A and B is 75 mm, and the diameterof the inlet pipe at C is 150 mm. The density of water isPw = 1000 kg/m³. Neglect the mass of the contained waterand the hydrant.|250 mm30°f650 mm600 mm

The free-body diagram of the hydrant is given as, The flow rate at C is given as, The flow rate at…

Answered: 15-129. The water flow enters below the…

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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Water is discharged into the atmosphere from the pipe at 15 m/s. Neglect the resistance provided by the pipe at C, and the weight of the pipe and the water within it. 100 mm 300 mm 60 mm 150 mm Part A Determine the horizontal component of force that is developed at the fixed support A by the ground in order to hold the pipe in equilibrium. Express your answer to three significant figures and include the appropriate units. Enter positive value if the direction of the force is to the right and negative value if the direction of the force is to the left.
The fire boat discharges two streams of seawater, each at a flow of 0.35 m^3 and with a nozzle velocity of 40 m/s Determine the tension developed in the anchor chain, needed to secure the boat. The density of seawater is ρsw = 1020 kg/m^3
The offset nozzle has a discharge area A at B and an inlet area Ao at C. A liquid enters the nozzle at a static gauge pressure p through the fixed pipe and issues from the nozzle with a velocity v in the direction shown. If the constant density of the liquid is, write expressions for the tension T, shear Q, and bending moment M in the pipe at C. If Ao
Water is discharged into the atmosphere from the pipe at 14 m/s (Figure 1). Neglect the resistance provided by the pipe at C, and the weight of the pipe and the water within it. 100 mm B 300 mm 60 mm 150 mm A Determine the horizontal component of force that is developed at the fixed support A by the ground in order to hold the pipe in equilibriu Determine the vertical component of force that is developed at the fixed support A by the ground in order to hold the pipe in equilibrium. Determine the moment that is developed at the fixed support A by the ground in order to hold the pipe in equilibrium.
8 and 9

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