Water is flowing into and discharging from a pipe U-section as shown in the given figure. At flange (1), the total absolute pressure is 200 kPa, and 59 kg/s flows into the pipe. At flange (2), the total pressure is 150 kPa. At location (3), 17 kg/s of water discharges to the atmosphere, which is at 100 kPa. Determine the total x- and z-forces at the two flanges connecting the pipe. Discuss the significance of gravity force for this problem. Take the momentum-flux correction factor to be 1.03 throughout the pipes. Take the density of water to be 1000 kg/m3. z kg/s -3 cm (2 y kg/s J10 cm X kg/s ст The value of the force FRx is N. The value of the force FRz is N.

Water is flowing into and discharging from a pipe U-section as shown in the given figure. At flange (1), the total absolute pressure is 200 kPa, and 59 kg/s flows into the pipe. At flange (2), the total pressure is 150 kPa. At location (3), 17 kg/s of water discharges to the atmosphere, which is at 100 kPa. Determine the total x- and z-forces at the two flanges connecting the pipe. Discuss the significance of gravity force for this problem. Take the momentum-flux correction factor to be 1.03 throughout the pipes. Take the density of water to be 1000 kg/m3. z kg/s -3 cm (2 y kg/s J10 cm X kg/s ст The value of the force FRx is N. The value of the force FRz is N.

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

See similar textbooks

Related questions

Q: Water is flowing in a 90ο pipe with uniform cross section area of A=0.0083 m2. The velocity along…

Q: The flow energy of 124 liters per minute of a fluid passing a boundary to system is 108.5 KJ/min..…

A: Flow rate of fluid, Q = 124 liters per minute The flow energy , P = 108.5 kJ/min

Q: A large lawn sprinkler with two identical arms is used to generate electric power by attaching a…

A: Given : The velocity of water = 8 gal/s The rotational speed of sprinkler = 250rpm The diameter of…

Q: Consider two liquids of densities p₁ = 1000 kg/m³ and p2 = 800 kg/m³ that are initially flowing in…

A: According to principle of conservation of mass, the mass can neither be created nor be destroyed so…

Q: The drawing shows a centrifugal fan. The fan draws 25 m^3/s of air from the room through the 0.75…

Q: (See Fluids in the News article titled "Bow thrusters".) The bow thruster on the boat shown in the…

A: Given:The diameter of the thruster is .The velocity of the jet of the water is .

Q: 6-58 Water is flowing into and discharging from a pipe U- section as shown in Fig. P6-58. At flange…

Q: Water is stored in a pressurised container at a height HT = 8 m. It then moves through a horizontal…

Q: Water flow steadily at the rate of 10 gpm through a horizontal tee and discharges to the atmosphere.…

Q: A reducing elbow is used to deflect water flow at a rate of 14 kg/s in a horizontal pipe upward 30°.…

A: Given data,

Q: An oil of S.G of 0.8 is flowing in a stream tube as shown in

Q: The gauge pressure of water at A is 150.5 kPa. Water flows through the pipe at A with a velocity of…

Q: Water at 20°C is pumped at a constant rate of 9 m3/h from a large reservoir resting on the floor to…

Q: The jet plane has a mass of 250 Mg and a horizontal velocity of 140 m/s when t = 0. Figure F(KN)…

Q: A stream of water with density p=1000 kg/m³ is discharged from a nozzle at the rate of 0.085 m³/s as…

A: Given data:-density ()= 1000 kg/m3 discharged from a nozzle at the rate (Q)=0.085 m3/ sinlet…

Q: The water flows from the pipe shown in the figure with a flow rate of 0.025 m3 / s and emerges into…

Q: A converging nozzle having an exit diameter of 30 mmmm is connected to the large tank (Figure 1).…

Q: 1a. Water flows into a tee fitting at a flow rate of 0.02 m3 /s. A pipe is connected to B. The…

Q: Water is flowing into and discharging from a pipe U-section as shown . At flange (1), the total…

Q: Air enters the circular nozzle with a velocity of 32 m/s and then exits to the atmosphere at B.…

A: Given:Velocity at A,VA=32msDiameter at section A,DA=0.4mDiameter at section B,DB=1.2mCross sectional…

Q: Determine the magnitude and direction of the resultant force exerted on the double nozzle depicted…

A: Step 1: Step 2:Step 3:Step 4:Step 5:Step 6: Therefore, The resultant force is calculated as 4634.62…

Q: Two circular water jets (d = 0.5 in.) issue steadily from this unusual nozzle. If Vj = 80.2 ft/s,…

A: The diagram for the nozzle is given as, The velocity of water in the jet is given as,

Q: A cylindrical tank discharges water at 20^O C through a well-rounded orifice to hit an inclined…

A: Given

Q: As shown in the figure, water enters and leaves a U-shaped piece of pipe in the horizontal plane.…

A: Density It is the property of fluid which is ratio of mass and volume of fluid. Continuity…

Q: Calculate (a) the mass flow rate through the system and (b) the force that is required to hold the…

A: To calculate the volume flow rate of water through the pipe, we must apply the Bernoulli's theorem…

Q: The gauge pressure of water at A is 150.5 kPa. Water flows through the pipe at A with a velocity of…

Concept explainers

Fluid Dynamics

The study of the flow of gases and liquids, usually in and around solid surfaces, is known as fluid dynamics in physics and engineering. Fluid dynamics, for example, can be used to evaluate the movement of air through an airplane wing or the surface of a vehicle. It can also be used in ship design to increase the speed at which ships pass through water.

Question

Water is flowing into and discharging from a pipe U-section as shown in the given figure. At flange (1), the total absolute pressure is
200 kPa, and 59 kg/s flows into the pipe. At flange (2), the total pressure is 150 kPa. At location (3), 17 kg/s of water discharges to the
atmosphere, which is at 100 kPa. Determine the total x- and z-forces at the two flanges connecting the pipe. Discuss the significance of
gravity force for this problem. Take the momentum-flux correction factor to be 1.03 throughout the pipes. Take the density of water to
be 1000 kg/m3.
z kg/s
3 сm
y kg/s
L10 cm
x kg/s.
5 cm
The value of the force FRx is
N.
The value of the force FRZ is
N.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Water is stored in a pressurised container at a height HT= 8.4 m. It then moves through a horizontal pipe which has a height HP= 0.2 m off the ground. A fault occurs, and the water in the pipe is ejected vertically out of a valve, as shown in the figure. The jet reaches a maximum height Hj off the ground. The density of water is ρ=1000 kg/m^3, and the gauge pressure in the tank is pT= 45 kPa.a) Find the maximum height of the jet, Hj (in metres)b) Find the velocity at which the jet leaves the pipe (in m/s)
Concentrated loads of Px = 43 kips, Py = 29 kips, and P₂ = 52 kips are applied to the cantilever beam in the locations and directions shown. The beam cross section has dimensions of b = 14 in. and d= 7.0 in. Using a value of a = 7 in., determine the normal and shear stresses at point H. Show these stresses on a stress element. d Answer: O₂ = i Txz = P₂ K b b a psi psi Pr a H H a Py X → a X
Water enters a mixed flow pump axially at a rate of 0.25 m3/s and at a velocity of 5 m/s, and is discharged to the atmosphere at an angle of 75° from the horizontal, as shown . If the discharge flow area is half the inlet area, determine the force acting on the shaft in the axial direction
The lawn sprinkler shown in the figure rotates in the horizontal plane. A water flow of 15 L/min of water enters the center vertically and discharges in the horizontal plane from the two jets. Determine (a) the torque needed to keep the sprinkler from rotating and (b) the rotating speed of the sprinkler when the torque is removed. d = 5 mm R = 225 mm
Air flows at 700 m/s through a long duct in a wind tunnel, where the temperature is 15°C and the absolute pressure is 90 kPa. The leading edge of a wing in the tunnel is represented by the 8° wedge. The angle of attack is set at a = 1.5°. (Figure 1) Figure 700 m/s 4° Ja 4° 1 of 1 Part A Determine the pressure created on its top surface. Express your answer to three significant figures and include the appropriate units. p= O D Submit Value μA Provide Feedback Request Answer 20 Units ? Next >
The diameter of a horizontal pipe which is 300 mm is suddenly enlarged to 600 mm. The rate flow of water through this pipe is 0.4 m3/s. If the intensity of pressure in the smaller pipe is 125 kn/m2, determine:1. Loss of head, due to sudden enlargement, 2. Intensity of pressure in the larger pipe. and 3. Power lost due to enlargement.
The gauge pressure of water at A is 150.5 kPa. Water flows through the pipe at A with a velocity of 18 m/s, and out the pipe at B and C with the same velocity v. Neglect the weight of water within the pipe and the weight of the pipe. The pipe has a diameter of 50 mm at A, and at B and C the diameter is 35 mm. Pw = 1000 kg/m³. (Figure 1) %D Determine the x component of force exerted on the elbow necessary to hold the pipe assembly in equilibrium. Express your answer to three significant figures and include the appropriate units. View Available Hint(s) HẢ ? Value Units %3D Submit Previous Answers
Water flows from a nozzle with a speed of V= 10m/s and is collected in a container that moves toward the nozzle with a speed of Vcv = 2 m/s as shown in the figure. If the water between the nozzle and the tank is in the constant diameter stream, what is the accumulation rate of water in the tank?
Consider the propeller tube shown in. The density of air is Pa = 1 23 kg/m. The diameter of the nozzles at B, C, D, and E is 100 mm 100 mm 0.5 m M D 60 rad/s 0.5 m 0.5 m 0.5 m Part A If the propeller tube rotates at a constant rate of 60 rad/s when 1.80 kg/s of air enters at A, determine the frictional torque M acting on the tube. Express your answer to three significant figures and include the appropriate units. Enter positive value if the moment is counterclockwise and negative value if the moment is clockwise.
Oil flows through the 100-mm-diameter pipe with a velocity of 8 m/s (Figure 1). The flow occurs in the horizontal plane. Take p = 900 kg/m³. ▼ Part A If the pressure in the pipe at A and B is assumed to be 90 kPa, determine the component of force the flow exerts on the elbow. Express your answer to three significant figures and include the appropriate units. ▾ View Available Hint(s) ▾ Hint 1. How to determine the component of force the flow exerts on the elbow Build a free body diagram of the control volume containing oil within the pipe and elbow between cross-sections at A and B. Then using the linear momentum equation determine the component of the force the flow exerts on the elbow. F₂ = Part B HÅ Submit Previous Answers Request Answer Value Fy = X Incorrect; Try Again; 4 attempts remaining Submit Units If the pressure in the pipe at A and B is assumed to be 90 kPa, determine they component of force the flow exerts on the elbow. Express your answer to three significant figures and…
kg Water (p = 1000- -) flows through the elbow below. The diameter of both the inlet and outlet is 1.1 cm, and the velocity through the nozzle is V =4.5 m/s. The outlet m³ has an angle of 0 =15 degrees. The water is at a pressure of 29 kPa (gauge). Find the magnitude of the force on the elbow. 0 V
Water is flowing in a 90ο pipe with uniform cross section area of A=0.0083 m2. The velocity along the horizontal direction is v1=6.0 m/s. The pressure at the section 1 is p1=500kPa. Elevation difference and energy losses can be neglected. The density of water is ρ=1000kg/m3. An external force is needed to hold the pipe in equilibrium. (1) Select the correct expression of the external force component in the horizontal direction Rx_________ A. B. C. D.