F4-7. The uniform plate has a mass of 200 kg. Determine the tension in each of the supporting cables. в 2 kN 3 п 2.
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A: Given Data Mass of the block, m = 5Kg Spring constant, K=200 N/m Weight,W=mg=5(9.81)=49.05 N Length…
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Q: •5-65. If P = 6 kN, x = 0.75 m and y = 1 m, determine the tension developed in cables AB, CD, and…
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Q: F3-8. Determine the tension developed in cables AB. AC, and AD. DE
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Q: F4-8. Determine the reactions at the roller support A, the ball-and-socket joint D, and the tension…
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Q: 3-10. Determine the tension developed in wires CA and CB required for equilibrium of the 10-kg…
A: Let the tension in wire AC and BC be TA and TB respectively.
Q: Q-4: Determine the components of reaction at the ball-and-socket joint A and the tension in the…
A: A ball and socket joint will experience components of forces in all the three directions x, y, and…
Q: 3-3. If the mass of the girder is 3 Mg and its center of mass is located at point G, determine the…
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Q: The 20-kg homogeneous smooth sphere rests on the two inclines as shown. Determine the contact forces…
A: Given data Mass of sphere = 20kg
Q: F3-7. Determine the magnitude of forces F,, F, F3, so that the particle is held in equilibrium.
A: Given data, Force F1 in vector form, F→1=F1×45j^+F1×35k^ Force F2 in vector form, F→2=-F2i^ Force F3…
Q: 5-66. Determine the location x and y of the point of application of force P so that the tension…
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Q: Determine the magnitude of the pin force at A. Assume W = 675 lb, a = 2.7 ft, b = 2.0 ft, r = 9 in.…
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Q: 3-63. The crate has a mass of 130 kg. Determine the tension developed in each cable for equilibrium.
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Q: R4-2. Determine the reactions at the supports A and B for equilibrium of the beam. 400 N/m 200 N/m
A: Draw the diagram showing all the reactions due to UDL and UVL and at A and B.
Q: F3-4. The block has a mass of 5 kg and rests on the smooth plane. Determine the unstretched length…
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Q: Q-2: The woman exercises on the rowing machine. If she exerts a holding force of F = 350 N on handle…
A: Answer: (a) The horizontal and vertical reaction at point C: Rc,x = 818.1333 N ; Rc,y = 105.3105 N…
Q: The 10-lb weight is supported by the cord AC and roller and by a spring. If the spring has an…
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Q: F5-13. Determine the force P needed to hold the 30-kg cylinder in equilibrium.
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Q: F3-7. Determine the magnitude of forces F1, F2, F3, that the particle is held in equilibrium. SO Z.…
A: Mechanical Equilibrium: A body is said to be in mechanical equilibrium if it satisfies the following…
Q: F4-3. The truss is supported by a pin at A and a roller at B. Determine the support reactions. 10…
A: Draw the free body diagram of the truss: Find AD: AD=EC+AE cos45°AD=2 m+4 cos45°AD=4.83 m…
Q: F4-6. Determine the reactions at the smooth contact points A, B, and C on the bar. 250 N 307 015 m…
A: Given Applied load 250 N Structure To find Reaction at point A, B and C
Q: 3-9. Determine the maximum weight of the flowerpot that can be supported without exceeding a cable…
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Q: 3–18. If the spring DB has an unstretched length of 2 m, determine the stiffness of the spring to…
A: “Since you have asked multiple question, we will solve the first question for you. If you want any…
Q: F4-9. The rod is supported by smooth journal bearings at A, B, and C. Determine the reactions at…
A: To determine: Reactions at the supports A,B & C Let the reactions at A be RAx &…
Q: 3-43. The three cables are used to support the 40-kg flowerpot. Determine the force developed in…
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Q: •3-21. If the tension developed in each of the four wires is not allowed to exceed 600 N, determine…
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Q: R3-3. Determine the maximum weight of the flowerpot that can be supported without exceeding a cable…
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Q: 3–46. Determine the stretch in each of the two springs required to hold the 20-kg crate in the…
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Q: Q4. Determine the support reaction on the member. The collar at A is fixed to the member and can…
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Q: please answer the highlighted question
A: Writing the co-ordinate of the points:-
Q: F4-5. The 25-kg bar has a center of mass at G. If it is supported by a smooth peg at C, a roller at…
A: As it is given that the mass of the bar is 25 kg. The expression for the weight of the bar can be…
Q: •5-65. If P = 6 kN, x = 0.75 m and y = 1 m, determine the tension developed in cables AB, CD, and…
A: P = 6 kN x = 0.75 m y = 1 m Find tension in the cable
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Q: F6-13. Determine the force P needed to hold the 60-lb weight in equilibrium.
A: load W = 60 lb Find the value of P
Q: R4-3. Determine the normal reaction at the roller A and horizontal and vertical components at pin R…
A: Draw the free body diagram of the member as shown below. We need to find the normal reactions at…
Q: The plate is made of steel having a density of 7850 kg/m3. If the thickness of the plate is 10 mm,…
A: Given:-ρ=7850 kg/m3t=10 mm=0.01my3=2xTo find:-Tension in cable ABVertical component at AHorizontal…
Q: •5-65. If P 6kN, x -0.75 m and y-1 m, determine the tension developed in cables AB, CD, and EF,…
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Q: 4. If the maximum force that any member can support is 8 kN in tension and 6 kN in compression,…
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Q: F3-2. The beam has a weight of 700 lb. Determine the shortest cable ABC that can be used to lift it…
A: Given:-AC=10 ftBeam weight=700 lbForce in cable=1500 lbTo find:-Length of cable ABC
Q: 5-65. If P = 6 kN, x = 0.75 m and y = 1 m, determine he tension developed in cables AB, CD, and EF.…
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Q: F4-12. Determine the components of reaction that the thrust bearing A and cable BC exert on the bar.…
A: Given Data: The load acting on the member is 80 N. The free-body diagram of the member can be…
Q: F3-4. The block has a mass of 5 kg and rests on the smooth plane. Determine the unstretched length…
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Q: •5-65. If P 6 kN, x 0.75 m and y 1 m, determine the tension developed in cables AB, CD, and EF.…
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Q: The weight of the bicycle is 29 Ib with center of gravity at G. Determine the normal forces at A and…
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Q: Determine the force needed to support the 100-lb weight. Each pulley has a weight of 10 lb. Also,…
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Q: 3-2. The members of a truss are pin connected at joint O. Determine the magnitude of F and its angle…
A: Given: The forces on the truss is shown below: F2=6 kN
Q: The smooth uniform rod AB is supported by a ball-and-socket joint at A, the wall at B, and cable BC.…
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- The 1200-lb homogeneous block is placed on rollers and pushed up the 10 incline at constant speed. Determine the force P and the roller reactions at A and B.The 600-lb drum is being hoisted by the lifing device which hoocks over the end lips of the drum. Determine the tension T in each of equal-lenghth rods which form the two U-shaped of the deviceDetermine the magnitude of the force P required to hold the 300-kg crate in equilibrium
- Determine the magnitude of the components of the force and the lever arm d that would put the structure below in equilibrium. F1 = 20 N, F2 = 10 N F3 = 5 N, a = 2.0 m, b = 3.0 m, c = 1.0 m. Fh =Fv = d =4. Determine the tension in the cable at B, given that the uniform cylinder weighs 350 lb. Neglect friction and the weight of bar AB.If the bucket weighs 50 lb, determine the tension developed in wire BA, BC, BE, and ED.
- Determine the required tension in cables AB, AC and AD to hold the 50 kg equilibriumThe smooth uniform rod AB is supported by a ball-and-socket joint at A, the wall atB, and cable BC. Determine the components of reaction at A, the tension in the cable,and the normal reaction at B if the rod has a mass of 20 kg. Once you have your solution examine the reaction force at A and determine if it points in the direction of the member ABDetermine the tension in the cable and the components of the reactions of the bolt at A, considering that the pulley at D is frictionless and that the cylinder has no friction and that the cylinder has a weight of 80 lb.
- The ring weighs 5 N and is in equilibrium. The force F1 = 4.5 N. Determine the force F2 and the angle ∝.Determine the tension developed in wire CA required for the equilibrium of the 11 kg cylinder. Take θ = 40 ∘. Determine the tension developed in wire CB.The smooth disks D and E have a weight of 220 lb and 100 lb, respectively. If a horizontal force of P = 220 lb is applied to the center of disk E, determine the normal reactions at the points of contact with the ground at A, B, and C.