A horizontal pipeline terminates in a nozzle that discharges to the atmosphere. The pipeline has a...

On the right end of a 6-in-dia horizontal pipe is a diverging nozzle which discharges a...

On the right end of a 6-in-dia horizontal pipe is a diverging nozzle which discharges a 6.5-in-dia jet. The velocity in the pipe is 10 fps and the jet discharges into the air. If the fluid is water, what is the axial force on the nozzle? In which direction does this force act?

An isentropic nozzle receives water at 10 bar, 400 C, and 20 m/s and discharges it...

An isentropic nozzle receives water at 10 bar, 400 C, and 20 m/s and discharges it to 5 bar. The inlet diameter of the nozzle is 0.01 m. The outlet diameter of the nozzle is 0.05m. Determine the outlet velocity, in m/s.

A horizontal (x direction +→) water jet from a round nozzle is striking towards right on...

A horizontal (x direction +→) water jet from a round nozzle is striking towards right on a curved vane at velocity V = 8 m/s with a flow rate of Q = 160 Liter per minute. The direction of water is turned downwards by 45° from the direction of the striking jet and exiting the vane at the same speed. Calculate the net momentum change (exit - inlet) in the direction of the striking fluid (along x direction towards right→)...

The hose has a diameter of 2.5 cm, but the nozzle has a diameter of only...

The hose has a diameter of 2.5 cm, but the nozzle has a diameter of only 1.10 cm. The water that comes out of the hose fills a container of 25 Len 1.50 min. Calculate: a- the volume flow flowing through the hose b- the velocity of the water leaving the nozzle c- if the pressure external to the hose is atmospheric, what is the absolute pressure of the water inside the hose?

1. In a turbo jet engine, the momentum of the gases leaving the nozzle produces the...

1. In a turbo jet engine, the momentum of the gases leaving the nozzle produces the propulsive force. The enthalpy and velocity of the gases at the nozzle entrance are 1200 kJ/kg and 200 m/s respectively. The enthalpy of the gas at exit is 900 kJ/kg. If the heat loss from the nozzle is negligible, determine the velocity of the gas jet at exit from the nozzle. 2. For question 1, if the diameter of the nozzle at exit is...

Calculate the force exerted by a jet of water 10 mm in diameter which strikes a...

Calculate the force exerted by a jet of water 10 mm in diameter which strikes a flat at an angle of 0º, and 30º to the normal of the plate with a velocity of 12 m/s if (a) the plate is stationary (b) the plate is moving in the direction of the jet with a velocity of 2 m/s.

Air is injected into a 50 m long horizontal pipeline (of 42 mm diameter) carrying a...

Air is injected into a 50 m long horizontal pipeline (of 42 mm diameter) carrying a clay slurry of density 1452 kg/m 3 . The rheological behaviour of the slurry follows the power-law model, with m = 5.55 Pa sn and n = 0.35. The volumetric flow rates of air and liquid are 7.48 and 1.75 m3 /h, respectively. The air is introduced into the pipeline at 20°C and at a pressure of 1.2 bar. Ascertain the flow pattern occurring...

A water jet has an actual velocity of 88.256 m/s and a mass flow rate of...

A water jet has an actual velocity of 88.256 m/s and a mass flow rate of 17.745 kg/s. This jet strikes an upward curved vane moving at 20 ms–1 in a horizontal direction away from the jet, which deflects the water through an angle of 115º. The impact is shockless. Calculate: (i) the magnitude and direction of the velocity of the fluid leaving the vane; (ii) the thrust on the vane in a horizontal direction; (iii) the thrust on the...

A jet of water 50 mm in diameter with a velocity of 20 m/s strikes a...

A jet of water 50 mm in diameter with a velocity of 20 m/s strikes a flat plate inclined at an angle of 30° to the axis of the jet. Determine (i) the normal force exerted on the plate when the plate is stationary (ii) the normal force exerted on the plate when the plate is moving at 5 m/s in the direction of the jet (iii) the work-done on the plate and the efficiency for case (ii).

. The nozzle of a garden hose is shown to the right. The hose has a...

. The nozzle of a garden hose is shown to the right. The hose has a v1 v2 diameter of 2.5 cm, and the opening on the right has a diameter of 0.75 cm. The water emerges from the opening to the air, so it is at atmospheric pressure. If the speed of the water at the opening v2 is 15 m/s, A) What volume of water emerges from the hose every minute? (Express your answer in gallons, where 1...