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A 6-cm-diameter vertical water jet is injected upward by a nozzle at a speed of 15...
13. A vertical jet of water leaves nozzle at speed of 10 m/s and diameter of...
13. A vertical jet of water leaves nozzle at speed of 10 m/s and diameter of 20 mm. it suspends a plate having a mass of 1.5 kg as shown. What is the vertical distance h?
13. A vertical jet of water leaves nozzle at speed of 10 m/s and diameter of 20 mm. it suspends a plate having a mass of 1.5 kg as shown. What is the vertical distance h?
Please solve both with showing steps 5.29. A 4.0-cm diameter nozzle delivers a jet of water...
Please solve both with showing steps
5.29. A 4.0-cm diameter nozzle delivers a jet of water that strikes a flat plate normally. If the water speed is 50.0 m/s, calculate the force acting on the plate if (a) the plate is stationary. 5.32. A 4-in-diameter nozzle is fitted at the end of a 10-in diameter pipeline, as shown in Figure P5.32. The pressure at the end of the pipe (nozzle inlet) is 20 psi and at the nozzle exit the...
Suppose you have a 8.2 cm diameter fire hose with a 2.4 cm diameter nozzle
Suppose you have a 8.2 cm diameter fire hose with a 2.4 cm diameter nozzle Part (a) Calculate the pressure drop due to the Bernoulli effect as water enters the nozzle from the hose at the rate of 40.0 L/s. Take 1.00×103 kg/m3 for the density of the water. Part (b) To what maximum height, in meters, above the nozzle can this water rise? (The actual height will be significantly smaller due to air resistance.) +
A 23-cm-diameter horizontal water jet with a speed of Vj = 20 m/s relative to the...
A 23-cm-diameter horizontal water jet with a speed of Vj = 20 m/s relative to the ground is deflected by a 40° cone moving to the left at Vc = 10 m/s. Determine the external force, F, needed to maintain the motion of the cone. Disregard the gravity and surface shear effects, and assume that the cross-sectional area of the water jet normal to the direction of motion remains constant throughout the flow. Take the density of water to be...
5.6 A 7.5 cm diameter jet of water is directed at a hole in a vertically...
5.6 A 7.5 cm diameter jet of water is directed at a hole in a vertically supported plate Some of the water spreads as a film over the surface of the plate and the remainder leaves horizontally through the hole. The angle between the jet and the plate is 65° and the velocity within the jet is uniform and 10 m/s. Assume inviscid flow and neglect gravity forces. The density of water is 1000 kg/m a) What is the velocity...
Water is accelerated by a nozzle to an average speed of 20 m/s, and strikes a...
Water is accelerated by a nozzle to an average speed of 20 m/s, and strikes a stationary vertical plate at a rate of 10 kg/s with a normal velocity of 20 m/s. After the strike, the water stream splatters off in all directions in the plan of the plate. Determine the force needed to prevent the plate from moving horizontally due to the water stream. Assume that the density of water is =1000 kg/m3
A jet of water is shot vertically upward and hits a flat circular plate of mass...
A jet of water is shot vertically upward and hits a flat
circular plate of mass M, as shown in the figure below. The
diameter of the exhaust is 5 in, the exhaust height is 5 ft, the
reservoir depth is 30 ft. If friction losses are neglected, the
flow rate (CFS) of the water exiting the jet is most nearly:
Reservoir Depth, Ft WATER RESERVOIR |4 Exhaust Diameter, in Exhaust Height Ft MASS DENSITY = ρ NOT TO SCALE
V cart Nozzle V. jet- 4. (20 pts) A 3-cm-diameter water jet moving at 40 m/s...
V cart Nozzle V. jet- 4. (20 pts) A 3-cm-diameter water jet moving at 40 m/s velocity in x-direction strikes the vertical back surface of a cart moving horizontally at a constant speed of 10 m/s in the flow direction. After the strike, the water stream splatters off in all directions in the plane of the back surface. Using the moving control volume indicated with dashed lines in the figure, determine: Waterjeti F. Rx X a) The relative velocity and...
The "double nozzle lying in a horizontal plane discharges water (p = 1000 kg/m) into the...
The "double nozzle lying in a horizontal plane discharges water (p = 1000 kg/m) into the atmosphere at a rate of 0.50 m/s. Jet A is 10 cm in diameter, jet B is 12 cm in diameter, and the pipe is 30 cm in diameter. Assume the water speed in each jet to be the same. Calculate the force component (E. and F.) acting through the flange bolts required to hold the nozzle in place? Jet Water
1 (a) A steady stream of water jet discharges from the nozzle with a uniform velocity...
1 (a) A steady stream of water jet discharges from the nozzle with a uniform velocity of 10 m/s at angle 60° as shown in Figure 1. The jet strikes a horizontal plate 2 m above the nozzle exit. Upon impact, part of the flow is guided towards the left while the remainder towards the right, and the plate is suspended in the air. The weight of the plate is 25 N. Assume frictionless flow along the plate and weight...
13. A vertical jet of water leaves nozzle at speed of 10 m/s and diameter of 20 mm. it suspends a plate having a mass of 1.5 kg as shown. What is the vertical distance h?
13. A vertical jet of water leaves nozzle at speed of 10 m/s and diameter of 20 mm. it suspends a plate having a mass of 1.5 kg as shown. What is the vertical distance h?
Please solve both with showing steps
5.29. A 4.0-cm diameter nozzle delivers a jet of water that strikes a flat plate normally. If the water speed is 50.0 m/s, calculate the force acting on the plate if (a) the plate is stationary. 5.32. A 4-in-diameter nozzle is fitted at the end of a 10-in diameter pipeline, as shown in Figure P5.32. The pressure at the end of the pipe (nozzle inlet) is 20 psi and at the nozzle exit the...
5.6 A 7.5 cm diameter jet of water is directed at a hole in a vertically supported plate Some of the water spreads as a film over the surface of the plate and the remainder leaves horizontally through the hole. The angle between the jet and the plate is 65° and the velocity within the jet is uniform and 10 m/s. Assume inviscid flow and neglect gravity forces. The density of water is 1000 kg/m a) What is the velocity...
A jet of water is shot vertically upward and hits a flat
circular plate of mass M, as shown in the figure below. The
diameter of the exhaust is 5 in, the exhaust height is 5 ft, the
reservoir depth is 30 ft. If friction losses are neglected, the
flow rate (CFS) of the water exiting the jet is most nearly:
Reservoir Depth, Ft WATER RESERVOIR |4 Exhaust Diameter, in Exhaust Height Ft MASS DENSITY = ρ NOT TO SCALE
V cart Nozzle V. jet- 4. (20 pts) A 3-cm-diameter water jet moving at 40 m/s velocity in x-direction strikes the vertical back surface of a cart moving horizontally at a constant speed of 10 m/s in the flow direction. After the strike, the water stream splatters off in all directions in the plane of the back surface. Using the moving control volume indicated with dashed lines in the figure, determine: Waterjeti F. Rx X a) The relative velocity and...
The "double nozzle lying in a horizontal plane discharges water (p = 1000 kg/m) into the atmosphere at a rate of 0.50 m/s. Jet A is 10 cm in diameter, jet B is 12 cm in diameter, and the pipe is 30 cm in diameter. Assume the water speed in each jet to be the same. Calculate the force component (E. and F.) acting through the flange bolts required to hold the nozzle in place? Jet Water
1 (a) A steady stream of water jet discharges from the nozzle with a uniform velocity of 10 m/s at angle 60° as shown in Figure 1. The jet strikes a horizontal plate 2 m above the nozzle exit. Upon impact, part of the flow is guided towards the left while the remainder towards the right, and the plate is suspended in the air. The weight of the plate is 25 N. Assume frictionless flow along the plate and weight...
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