5-109 A square viewing window is located in a large wa- ter tank as shown in Fig. P5-109. Determine the resultant force R exerted by the water pressure on the window and locate its line of action with respect to point A at the top of the window if d = 35 ft and h = 25 ft. Use 62.4 Ilb/ft for the specific weight y of water. ft 45°
Q: 3. A fine (thin) ring with a radius 50 mm is being pulled from the surface of water. If the ring has…
A: Given data: m=1.0 gθ=75°r=50 mm Need to determine the force (P) required to pull the ring free from…
Q: 2. a) Determine the resultant force acting on the inclined circular gate. b) Find the location of…
A: Given: Specific weight of water (ρg)=9810N/m3Diameter of the circular gate (D)=1mInclination of the…
Q: 5 kN 120 9. Way 100 x 200 × 120 mm rubber block in size is placed on the U profile without any gaps…
A: E=12 GPaν=0.5Dimension of way of rubber block=100×200×120 mmF=5 kN
Q: 5-85* The width of the rectangular gate shown in Fig. P5-85 is 8 ft. Determine the magnitude of the…
A: Given Data: The width of the rectangular gate is w = 8 ft. The density of the water is γ = 62.4…
Q: A circular window with a radius of 0.25 m has its center 3 m below the water's surface. The window…
A:
Q: 5-10 Three bodies with masses of 3, 6, and 7 kg are lo- cated at points (4, -3, 1), (-1, 3, 2), and…
A: The center of mass of an object is the point at which the total mass of the object can be assumed to…
Q: 5-88 The width of the rectangular gate shown in Fig. P5-88 is 4 m. Determine the magnitude of the…
A: Consider the following figure: The area of the gate considered in calculation is the area submerged…
Q: Prob 1. A piston weighs 4.3 kgs and has a cross sectional area of 450 mm2. Determine the pressure…
A: Given data: Weight of the piston (W) = 4.3 kg =4.3*9.81 N…
Q: 47 Two chambers with the same luid at their base are separated by a piston whose weight is 25 N, a…
A: Note:- As per our guidelines we are supposed to answer only one question. Kindly repost other…
Q: 5-87* The width of the rectangular gate shown in Fig. P5-87 is 4 ft. Determine the magnitude of the…
A: Consider the diagram shown below for the given dam.
Q: Q4) Set up the differential equations for the two masses [Fig.1]
A:
Q: 5-90 The width of the cylindrical gate shown in Fig. P5-90 is 4 ft. Determine the magnitude and the…
A: Draw the pressure points on the gate. Draw the free-body diagram of the gate.
Q: Q2 Water rises to level E in the pipe attached to tank ABCD in Fig. 3-4. Neglecting the weight of…
A:
Q: Situation. A right circular cylinder having a diameter of 1.00 m and weighing 900 N is held in…
A:
Q: The 280-kg, 6-m-wide rectangular gate is hinged at B and leans against the floor at A making an…
A: Given data: Consider the diagram of the given system as shown below,
Q: The 3 × 4-m side of an open tank is hinged at its bottom A and is held in place by a thin rod BC.…
A: Given that the area of the plate AB is 12 m2 Let the tension ‘T’ in the rod BC, Now, make a Free…
Q: (Force on plane surface) The rectangular gate CD of the figure below is 1.7 m wide and 2.0 m long.…
A:
Q: C5-98 A water tank at the aquarium has a circular win- dow 2 m in diameter in a vertical wall as…
A: Considering the minimum depth of the fluid is greater than the top point on the window (2.5 m from…
Q: e la a a g. agua h A 0 2,1 m 2,8 m
A:
Q: *3.101 A block of volume 0.025 m³ is allowed to sink in water as shown. A circular rod 5 m long and…
A:
Q: A 150 lb cylindrical tank is at rest as shown as shown in the figure. Determine the force P required…
A: The free-body diagram of the cylindrical tank is shown below.
Q: The 100cm radius cylinder weighs 3.1 KN and rest on the bottom of a container which is 1.5 meter…
A: Given that, Diameter of the cylinder, d=1.2 m,Weight of the cylinder, W=3.1 kN,Lenght of the…
Q: 6- The rectangular gat has dimensions 6 m by 2 m. Neglect the weight of the gate. Determine (a) The…
A:
Q: What is the force (P) required to hold the 10 m wide gate closed? TO JOT AD PLO
A:
Q: The 0.5-m-radius semi-circular gate is hinged through the top edge AB. Find the required force to be…
A: Density of Glycerin ρg= SG * 1000 = 1260 kg/m3 Density of Oil ρo=…
Q: 2-69. The tapered settling tank is filled with oil. Determine the resultant force the oil ex- erts…
A:
Q: C5-99 A wine barrel is modeled as a circular cylinder 4 ft in diameter and 6 ft long on its side as…
A: Center of point is the point at which the total pressure is applied due to fluid. Given, Diameter of…
Q: Q1:-The gate AB as shown in fig.I has long I mand wide 0.9 m .Find the force Fon The gate AB and…
A:
Q: 3-10. A balloon is released into the air from the origin and carried along by the wind, which blows…
A: Given Data: The x-component of velocity is u = 0.5 m/s. The y-component of velocity is v = 0.8+0.6y…
Q: 5-86 The width of the rectangular gate shown in Fig. P5-86 is 2 m. Determine the magnitude of the…
A:
Q: Q4) There is a balance between an immersed block and the mass on the scale as shown in figure.…
A: Given, Block length, a=12cm=0.12mDensity of water, ρ=1000kg/m3Specific gravity of water, sw=1let the…
Q: (Force on plane surface) The rectangular gate CD of the figure below is 1.8 m wide and 2.0 m long.…
A: sinθ=45=0.8Calculating x (C.G of gate below free stream)x¯ =2.2+2sinθ=3.8mCalculaint center of…
Q: What minimum pressure is required to force blood from the heart to the top of the body if the…
A: d=7cm ρ=1.04 g/cm3
Q: A gas is contained in a vertical, frictionless piston-cylinder device. The piston has a mass of 4kg…
A:
Q: 6- The rectangular gat has dimensions 6 m by 2 m. Neglect the weight of the gate. Determine (a) The…
A: Answer is given below,
Q: 11. The figure shows a high-pressure hand pump used for boosting oil pressure in a hydraulic line.…
A: Given, For the high pressure hand pump, θ=15° Force, P=120 N. Diameter of the piston, d=46mm
Q: 3. A fine (thin) ring with a radius 50 mm is being pulled from the surface of water. If the ring has…
A: Given Data The radius of the ring is: r=50 mm=0.05 m Mass of the ring is: m=0.1 g=1×10-4 kg The…
Q: 5-94 A flat plate is used to seal an opening in a large water (p = 1000 kg/m) tank as shown in Fig.…
A: Given data d=10 mh=1 m
Q: 5-82 If the dam shown in Fig. P5-82 is 50 m wide, de- ermine the magnitude of the resultant force R…
A: Given data: The width of the dam is, b = 50 m. The density of water, ρ = 1000 kg/m3. Draw the…
Q: C6-72 An extension ladder is being raised into position by a hydraulic cylinder as shown in Fig.…
A: Understand the following diagram for the configuration of the ladder and the hydraulic cylinder.…
Q: The diagram shows the open bonnet of a car i Jyuell. The bonnet is held open at an angle of 60° to…
A: Consider the free body diagram shown below for the given system.
Q: 5-81 If the dam shown in Fig. P5-81 is 200 ft wide, de- cermine the magnitude of the resultant force…
A: The width of the dam w=200 ft The depth of the water h=20 ft The specific weight of the water γ=62.4…
Q: 5-89 The width of the rectangular gate shown in Fig. P5-89 is 3 ft. Determine the magnitude of the…
A: The width of the rectangular gate is b=3 ft. The density of water is γ=62.4 lb/ft3. The depth of…
Q: The plane rectangular gate can pivot about the support at B. For the conditions given, is it stable…
A: Given:- The plane rectangular gate can pivot about the support at B. Neglect the weight of the gate…
Q: In a hydraulic car lift, the input piston has a radius of 2 cm and a negligible weight. The output…
A:
Q: Air in the accompanying piston-cylinder device is in equilibrium at 190 oC.The mass of the hanging…
A: Draw the figure.
Q: 3. A fine (thin) ring with a radius 50 mm is being pulled from the surface of water. If the ring has…
A:
Q: O4) Determine the force (P) needed to hold the 4-m wide gate in the position shown in Water Figure…
A:
Q: (Force on curved surface) The 9.5-ft-long cylinder of the figure below floats in oil and rests…
A:
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- The center of gravity of the 850-N man is at G. If the man pulls on the rope with a 388-N force, determine the horizontal distance b between the man's feet and G.Compute the surface area of the axi-symmetric domed structure.The hemispherical glass bowl is filled with water. Find the location y of the center of gravity of the filled bowl. Approximate the bowl as a thin shell of radius R=6.15in. Use 1=162lb/ft3 for glass and 2=62.4lb/ft3 for water.
- One side of the container has a 03-m square door that is hinged at its top edge. If the container is filled with water, determine the smallest force F that must be applied to the bottom edge of the door to keep it closed.The weight of the cylindrical tank is negligible in comparison to the weight of water it contains (water weighs 62.4lb/ft3). The coefficient of static friction between the tank and the horizontal surface is s. (a) Assuming a full tank, find the smallest force P required to tip the tank, and the smallest s that would allow tipping to take place. (b) If the force P = 200 lb initiates tipping, determine the depth of water in the tank.5-81 If the dam shown in Fig. P5-81 is 200 ft wide, de- cermine the magnitude of the resultant force R exerted on the dam by the water (y = 62.4 lb/ft) pressure. 20 ft
- Q2 Water rises to level E in the pipe attached to tank ABC D in Fig. 3-4. Neglecting the weight of the tank and riser pipe, (a) determine and locate the resultant force acting on area AB, which is 8 ft wide; (b) compute the total force on the bottom of the tank; and (c) compare the total weight of the water with the result in (b) and explain the difference. to 12 A = 1.0 fr? 6' IC 20' Fig. 3-4C5-99 A wine barrel is modeled as a circular cylinder 4 ft in diameter and 6 ft long on its side as shown in Fig. P5-99. Plot d, the location of the center of pressure relative to the center of the circle, as a function of the wine depth h (0 shs4 ft). 4 ft95 bläi 5 In the Fig. below is shown the * cross-section of the tank full of water under pressure. The length of the tank is 3 m. An empty cylinder lies along the length of the tank on one of its corners as shown. The horizontal component of the force acting on the curved surface ABC of * :the cylinder is 28 kN/m A r= 1.0m Tank full of water Empty cylinder
- Consider an adult of 70.0 kg mass and 1.95 m tall sitting on the floor, with arms crossed and legs extended as illustrated in the figure. It is not very easy to stay in this pose for a long time. The figure shows a sagittal section (dashed line) and the attached table provides the x and y coordinates of the center of gravity of some segments, as well as the respective masses. The center of gravity of the head and arms crossed with the neck and trunk are aligned vertically to the paramedial line (vertical axis) at a distance of 81.0 cm from the plantar part of the foot.5-94 A flat plate is used to seal an opening in a large water (p = 1000 kg/m) tank as shown in Fig. P5-92. If the opening has the cross section shown in Fig. P5-924, deter- mine the magnitude of the resultant force R exerted on the plate by the water pressure and the location of the center of pressure with respect to the bottom of the opening if d = 10 m and h=1 m.The 0.5-m-radius semi-circular gate is hinged through the top edge AB. Find the required force to be applied at the center of gravity to keep the gate closed.