PEARSON ETEXT ENGINEERING MECH & STATS
15th Edition
ISBN: 9780137514724
Author: HIBBELER
Publisher: PEARSON
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The chute is used to divert the flow of water. The flow is 0.4 m /s and it has a cross-sectional area of 0.03 m?. Neglect the weight
of the chute and the water on it
4 m
Part A
Determine the horizontal force acting on the chute at the roller B, necessary for equilibrium.
Express your answer to three significant figures and include the appropriate units.
Part B
Determine the z component of the force acting on the chute at the pin A, necessary for equilibrium.
Express your answer to three significant figures and include the appropriate units.
Part C
Determine the y component of the force acting on the chute at the pin A, necessary for equilibrium.
Express your answer to three significant figures and include the appropriate units.
5. The jets from both nozzles go out into the atmosphere at a speed of 35p/s. The liquid is water. The axes of the tube and both nozzles lie in a horizontal plane. Determine the forces that the fluid exerts on the support at A to keep the system in that position
An inviscid fluid with density, ρ, discharges into the atmosphere through the device shown below. The height differences between the inlets and outlets are appreciable but unknown. Determine the horizontal component of force at the flange required to hold the device in place in terms of A1, V1, θ, and p.
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- The balloon has a mass of 25 g (empty) and it is filled with air having a temperature of 20 ∘C having the density of 1.202 kg/m3. If it is released, it begins to accelerate upward at 8 m/s2 Determine the initial mass flow of air from the stem. Assume the balloon is a sphere having a radius of 180 mm .arrow_forwardProblem 2. Air is drawn into the 200-mm-diameter cylinder through the opening at A. If the piston is moving downward at a constant velocity of 10 m/s, determine the average pressure within the cylinder and the force required to move the piston. Take pa = 1.23 kg/m'. 200 mm Barrow_forwardQ2 The truck dumps water on the ground such that it flows from the truck through a 100-mm-wide opening at an angle of 60°. The length of the opening is 2 m. Determine the friction force that all the wheels of the truck must exert on the ground to keep the truck from moving at the instant the water depth in the truck is 1.75 m. A 1.75 m B 60°arrow_forward
- 3. Consider the shown configuration where water Pump from a large, open reservoir flows through the pipe Water and discharges to atmosphere. When the pump is not running, it does not prevent water from flowing Pipe Spring through the pipe. At this state, the force that develops in the spring is 1000 N. However, when the pump is running, the force in the spring becomes 3000 N. The diameter of the pipe is 0.1 m. Neglecting all frictional effects, determine the power delivered by the pump to the fluid. Pwater 1000 kg/m³.arrow_forward2. A horizontal nozzle discharges 0.01 m³/s of water into the air. The supply pipe's diameter (d = 40 mm) is twice as large as the nozzle diameter (dB = 20 mm). The nozzle is held in place by a hinge mechanism. Determine the magnitude and direction of the reaction force at the hinge, if the gauge pressure at A is 500 000 N/m2. Assume the weight supported by hinge is negligible. Ans.: Fr= 614 N, 0 = 26.6⁰. FA da 8 = 60° 10arrow_forward: Water Flow into horizontal pipe with velocity of v. Determine the horizontal and vertical component of force and the moment at A need to hold the elbow in place. Neglected the weight of the elbow and the water within it . Take v between 1 to 5 m/s and D1 between 0.2 to 1.0 m and D2 between 1.0 to 0.2 m. 3 m D1 v1 A Вarrow_forward
- Water flows through the 200-mm-diameter pipe bend with a velocity of 11 m/s and discharges into the atmosphere at B. The mass of the pipe bend and the water within it is 25 kg, having a center of gravity at G. 600 mm 450 mm 200 mm Part A Determine the r-component of force acting on the coupling at A. Express your answer to three significant figures and include the appropriate units.arrow_forwardConsider the bend shown in . The total mass of the bend and the water within it is 20 kg, with a mass center at point G. The pressure of the water at A is 50 kPa Assume that no force is transferred to the flanges at A and B. Suppose the velocity through the pipe to be 4.5 m/s. 100 mm By 60 100 mm 600 mm 150 mm- 100 mm D Part A Determine the horizontal component of force exerted on the fixed support D. Express your answer to three significant figures and include the appropriate units.arrow_forward2.arrow_forward
- Water flows into the bend fitting with a velocity of 3 m/s. The water exits at B into the atmosphere. Neglect the weight of the fitting and the water within it 150 mm 200 mm 150 mm 3 m/a 150 mm Part A Determine the z component of force at C, needed to hold the fitting in place. Express your answer to three significant figures and include the appropriate units.arrow_forwardProblem 2 - Determine the greatest possible mass flow through the nozzle if the throat has a diameter of 50 mm. The air in the reservoir has an absolute pressure of 400 kPa and a temperature of 30°C. I mmarrow_forwardThe total weight of the plunger and load is 30 kN, the plunger diameter is D=200 mm. Neglecting friction in the accumulator determine the oil pressure in its chamber. Darrow_forward
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