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Q: A large storage tank, open to the atmosphere at the top and filled with water, develops a small hole…
A: Given: Depth of tank h = 10.6 m. Rate of flow Q = 2.53×10-3 m3/min.
Q: The car lift at your neighborhood garage is designed such th 7.80 x 102 kg/m3. Compared to the…
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Q: Water, with a density of ?=1185 kg/m3, flows in a horizontal pipe. In one segment of the pipe, the…
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Q: A dam on a river is built so that the wall facing the water is shaped like the region above the…
A: Write the given values to the suitable variables.Here, are the depth of the shape, depth of water…
Q: Suppose the shape of a small dam is an isosceles triangle with a height of 30 meters and width, at…
A: Force on the dam is developed due to the pressure applied by the water on the face of isoceles…
Q: In the process of changing a flat tire, a motorist uses a hydraulic jack. She begins by applying a…
A: This problem can be solved by using Pascal's law which states that in a hydraulic system the…
Q: A force of 500 N is applied to a hydraulic jack piston that is 0.04 m in diameter. If the piston…
A: Given data: Force on hydraulic jack (F1) = 500 N Diameter of jack piston (d1) = 0.04 m Diameter of…
Q: Consider two liquids of densities p₁ = 1000 kg/m³ and p2 = 800 kg/m³ that are initially flowing in…
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Q: A legendary Dutch boy saved Holland by plugging a hole of diameter 1.20 cm in a dike with his…
A: Given: A legendary Dutch boy saved Holland by plugging a hole of diameter 1.20 cm The hole was 2.00…
Q: water
A: Given: Depth = 16.2 m Rate of flow =2.6 x 10-3 m3/min. The speed at which water leaves the hole =?…
Q: A vent tube can be used as a fluid flow meter. If the pressure difference P1-P2= 21.0kpa, find the…
A: Given data: The pressure difference is P1-P2=21 kPa. The inlet tube diameter is d1=1 cm. The outlet…
Q: Water (density = 1 x 103 kg/m³) flows at 13.6 m/s through a pipe with radius 0.05 m. This same pipe…
A: According to Bernoullis eqn:- P + ρgh + ρv2/2 = constant ρ = fluid density g = acceleration due to…
Q: Ideal incompressible water is flowing in a drainage channel of rectangular cross-section. At one…
A: Given Width of the channel at point 1 is w1=12 m Depth of water at point 1 is d1=6.0 m Speed of…
Q: Consider an incompressible, two-dimensional flow in the x-y plane. The velocity com- ponents in this…
A: Given Data: Let us consider the given data, u=Cyx2+y2v=-Cxx2+y2
Q: Find the force on a flat door at the bottom of the vessel that has a cross-sectional area of 0.5 m2.
A: The formula of pressure at a depth h due to fluid having density ρ is…
Q: The drawing shows a hydraulic chamber with = 1670 N/m) attached to the input piston and resting on…
A: Given k=1670 N/m (spring constant) A1=65 cm2=65×10-4 m2(area of output plunger)A2=15…
Q: Water, with a density of ?=1195 kg/m3, flows in a horizontal pipe. In one segment of the pipe, the…
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Q: The car lift at your neighborhood garage is designed such that the radii of the input piston and…
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Q: Calculate the hydrostatic difference in blood pressure between the brain and the foot in a person of…
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Q: A tank is 10 m long, 6 m wide, 3 m high, and contains kerosene with density 820 kg/m3 to a depth of…
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Q: You drill a small hole of area 0.0013 m2 near ground level on the side of a 18.3 m high, very large…
A: Given : Area (A) = 0.0013 m2 Height (h) = 18.3 m
Q: Consider the hydraulic lift shown in the figure. The small piston has an area Aj of 0.0330 m², and…
A: Given: F1=18N, A1=0.033m2, y1=0.2m A2=4m2 Find: F2, y2, W1, W2…
Q: if water flows through a pipe with a 1 meter diameter at a consistent linear velocity of 5 m/s and…
A: Given that diameter D1 =1 meter=2r1 velocity (v1) 5 m/s diameterD2 = 0.05 meters=2r1 determine…
Q: Find the force against a dam that is 3 meters deep and 54 meters long. The density of water is 1000…
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Q: Water flows through a hose of diameter 2.50 cm at a speed of 535 cm/s. Find the flow rate Q of the…
A: Given data: Diameter d = 2.50 cm Speed v = 535 cm/s
Q: If you turn on a water faucet so that the water flows smoothly, you should observe that the…
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Q: The drawing shows a hydraulic chamber with a spring (spring constant = 1500 N/m) attached to the…
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The nozzle shown discharges a stream of water at a flow rate of Q = 475 gal/min with a velocity v and a magnitude of 60 ft/s. The stream is split into two streams with equal flow rates by a wedge that is kept in a fixed position. Determine the components (drag and lift) of the force exerted by the stream on the wedge. (Note : 1 ft3 = 7.48 gal.)
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- In the process of changing a flat tire, a motorist uses a hydraulic jack. She begins by applying a force of 61 N to the input piston, which has a radius r1. As a result , the output plunger , which had a radius r2, applies a force to the car. The ratio r2/r1 has a value of 9.2. Ignore the height difference between the input piston and output plunger and determine the force that the output plunger applies to the car.Water flows through a hose of diameter 2.50 cm at a speed of 535 cm/s. Find the flow rate Q of the hose. Recall the area of a circle is A=¼ πd2, where d is the diameter of the circleWater emerges straight down from a 1.50 cm diameter faucet at a speed of 0.800 m/s. (Because of the construction of the faucet, there is no variation in speed across the stream.) (a) What is the flow rate in cm/s? 141.4 cm3/s (b) What is the diameter (in cm) of the stream 0.200 m below the faucet? Neglect any effects due to surface tension. 0.00918 X cm
- The L-shaped tank shown in the figure is filled with water and is open at the top. If d = 5.35 m, what is the total force exerted by the water (a) on face A and (b) on face B? 3d (a) Number (b) Number d d 2d i d 2d d B Units Units <You are constructing a new wearable artificial kidney to filter blood. The blood enters the machine at a flow rate of 5 cm3/sec and is spread out over a total cross sectional area of 5000 cm2. The velocity (speed) of the blood within the artificial kidney can be calculated as um/sec (NOTE: 1 cm = 104 um).container of cross-sectional area 122 cm2 contains liquid of density 1.75 g/cm3 to a height of 6.40 cm above a small hole of area 1.00 cm2 in the side. (Just need help with part b) (a) Find the speed of the fluid as it leaves the hole. 1.12 m/s(b) Find the flow rate through the hole. (The answer is not 0.196)
- A vat contains a mixture of oil and water. The water forms a lower layer which is 0.8 m deep, and above it there is an oil layer 0.3 m thick. The density of water is 1000 kg/m3, and the density of oil is 800 kg/m3. Find the force on a flat door at the bottom of the vessel that has a cross-sectional area of 0.5 m2. The acceleration due to gravity is 9.81 m/s2.A vertical dam on a large lake is 30 ft tall and 60 ft wide, and the water level is 3 ft below the top of the dam. In the middle of the dam at the very bottom is a gate in the shape of an equilateral triangle 8 ft on a side as shown in the figure below. (Assume a density of water p = 62.4 lb/ft³.) 8 ft 27 ft Find the hydrostatic force (in lb) on the gate. (Round your answer to the nearest integer.) 1 24579 X lbYou’re carrying a garden hose that is spewing out water. You notice that when you cover part of the opening of the hose with your thumb, the water shoots out farther! Explain why this works using the equation of continuity.
- Consider the hydraulic lift shown in the figure. The small piston has an area A of 0.0330 m², and the large piston has an area A2 of 4.00 m2. What force F2 will the large piston provide if the small piston is pushed down with a force F of 17.0 N? Assume that the fluid used in the lift is incompressible. F2 %3D Y2 A, A, If the small piston A1 is slowly depressed a distance of yi = 0.200 m, what distance y2 will the large piston A2 rise? y2 = What is the magnitude W of the work done when pushing down the small piston A1? What is the magnitude W, of the work done when pushing up the large piston A2? W = J W2 =A water-filled can sits on a table. The water squirts out of a small hole in the side of the can, located a distance y below the water surface. The height of the water in the can is h. At what distance R from thebase of the can, directly below the hole, does the water strike the table top? Neglect air resistance.