*5-76. The member is supported by a pin at A and cable BC. Determine the components of reaction at these supports if the cylinder has a mass of 40 kg.
Q: الواجب 3 H.W. ) F3-5. If the mass of cylinder C is 40 kg. determine the mass of cylinder A in order…
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Q: *5-76. The member is supported by a pin at A and cable BC. Determine the components of reaction at…
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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: 5-34. Determine the force P required to hold the 150-kg crate in equilibrium.
A: Given data: Mass of the crate is m=150 kg The free body diagram of pully A: Applying the equation…
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Q: 5-67. Due to an unequal distribution of fuel in the wing tanks, the centers of gravity for the…
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Q: couple moment. The bearings are in proper alignment and if the rod is subjected to the 200-lb…
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Q: 5. Determine the horizontal and vertical components of reaction at pins A and C of the two-member…
A: To find : The horizontal and vertical components of reaction at point A and C of the two member…
Q: 5-67. Due to an unequal distribution of fuel in the wing tanks, the centers of gravity for the…
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Q: *5-88. Determine the horizontal and vertical components of reaction at the pin A and the force in…
A: Convert the uniformly varying load to a point load, P=12×200 N/m×4.5 m=450 N Draw a free-body…
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A: Given:
Q: S-71. The rod assembly is used to support the 250-lb cylinder. Determine the components of reaction…
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Q: *5-64. Determine the components of reaction at the fixed support A. The 400 N, 500 N, and 600 N…
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Q: 5-77. The member is supported by a square rod which fits loosely through the smooth square hole of…
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Q: 7. The man pushes the 100 lb homogeneous crate with a horizontal force P. Determine the largest…
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Q: 5-71. The rod assembly is used to support the 250-lb cylinder. Determine the components of reaction…
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Q: *5-88. Determine the horizontal and vertical components of reaction at the pin A and the force in…
A: We have to find horizontal and vertical components of reaction
Q: *5-12. If the maximum force that any member can support is 4 kN in tension and 3 kN in compression,…
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Q: 10. The truck and the tanker have weights of 8000 lb and 20 000 lb respectively. Their respective…
A: Let us consider only tranker Take moment about D 20,000(10)-NA(15)=0 NA=13,333.33lb…
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A: Draw a free-body diagram of the beam. Apply equilibrium equation for the moment about point A,…
Q: *5-72. Determine the components of reaction acting at the smooth journal bearings A, B, and C.
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Q: *5-72. Determine the components of reaction acting at the smooth journal bearings A, B, and C. 450 N…
A: Given figure To determine : the reactions at A,B,C
Q: 5-34. Determine the horizontal and vertical components of reaction at the pin A and the normal force…
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Q: 5-73. The bent rod is supported at A, B, and C by smooth journal bearings. Determine the components…
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Q: 5-34. Determine the horizontal and vertical components of reaction at the pin A and the normal force…
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Q: *5-72. Determine the components of reaction acting at the smooth journal bearings A, B, and C. 450 N…
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Q: 5-46. Determine the force that the smooth 20-kg cylinder exerts on members AB and CDB. Also, what…
A: Let us draw the free body diagram Apply condition of equilibrium Take moment about A point…
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
Q: Would you please draw and explain all the free-body diagrams as well?
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Q: *5-88. Determine the horizontal and vertical components of reaction at the pin A and the force in…
A: Given Force, F = 100 N Find Calculate the reactions and the force
Q: F5-2. Determine the horizontal and vertical components of reaction at the pin A and the reaction on…
A: Draw the free-body diagram of member ACB.
Q: Please give me a step by step answer to the following question
A: Consider the stretched length of the spring AB be l’AB, lAB be the unstretched length of the spring,…
Q: *5-72. Determine the components of reaction acting at the smooth journal bearings A, B, and C. 450 N…
A: Draw the diagram showing all the reactions. Balance the forces along the y-direction. Cy=450…
Q: 5-57. The spring has an unstretched length of 0.3 m. Determine the angle e for equilibrium if the…
A: Given Mass = 20kg Unstretched spring length = 0.3 m
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Q: *5-72. Determine the components of reaction acting at the smooth journal bearings A, B, and C. 450 N…
A: solved
Q: 17-49. If the cart's mass is 30 kg and it is subjected to a horizontal force of P = 90 N, determine…
A: Given data Apply the equation of motions ∑Fx=max90=(15+30)aa=2 m/s2
Q: *5-88. Determine the horizontal and vertical components of reaction at the pin A and the force in…
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Q: 5-72. Determine the components of reaction acting at the nooth journal bearings A, B, and C.
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Q: 5-67. Due to an unequal distribution of fuel in the wing tanks, the centers of gravity for the…
A:
Q: 5-67. Due to an unequal distribution of fuel in the wing tanks, the centers of gravity for the…
A:
Q: *5-72. Determine the components of reaction acting at the smooth journal bearings A, B, and C. 450 N…
A: Given :- Determine the components of reaction acting at the smooth journal bearings A, B, and C.
Q: The block has a mass of 5 kg and rests on the smooth plane. Determine the unstretched length of the…
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Q: F5-2. Determine the horizontal and vertical components of reaction at the pin A and the reaction on…
A: Given:- To Determine:- The horizontal and vertical components of reaction at the pin A and the…
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: 5-67. Due to an unequal distribution of fuel in the wing tanks, the centers of gravity for the…
A: The free-body diagram of the plane is shown below.
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- Find the stable equilibrium position of the system described in Prob. 10.56 if m = 2.06 kg.The spring attached to the sliding collar is capable of carrying tension and compression. The spring has a stiffness k = 1.5 lb/in., and its free length is 1.5L. If the System is known to be in equilibrium in the position =30, determine the weight W of the slider.The 14-kN weight is suspended from a small pulley that is free to roll on the cable. The length of the cable ABC is 20 m. Determine the horizontal force P that would hold the pulley in equilibrium in the position x=5m.
- The homogeneous 240-lb bar is supported by a rough horizontal surface at A, a smooth vertical surface at B, and the cable BC. Draw the FBD of the bar and count the unknowns.Don't copy from other websites solution. The wall crane supports a load of 660lb. The jib ABC has a weight of 152lb and member BD has a weight of 38lb. Each member is uniform and has a center of gtravity at its center. A)Determine the horizontal component of reaction at the pin A. B)Determine the vertical component of reaction at the pin A. C)Determine the horizontal component of reaction at the pin D. D)Determine the vertical component of reaction at the pin D. E)What is the force in the cable at the winch W?The mass of crate D is held in position by two blocks, B and C, which are attached to the ring at A. The angle that rope AC makes in a counterclockwise direction from the positive x-axis is theta=30 rad as shown. The mass of block B is equal to that of C, mB=mC=158 kg a) draw the free body diagram of the point of equilibrium b) write down the static equilibrium equations c) determine the angle phi and tge weight of block D f) why will point A be the midpoint between B and C? Explain e) if all three weights are equal can equilibrium be maintained?
- 2-D PROBLEM: A spherical tank with a radius of 3.41m that has a mass of 28928.644kg was supported in the system shown. Assuming friction and the bar weight is negligible, determine the following: β: 21.774° θ: 46.452° 1. The reaction @ point D. 2. Tension @cable BE 3. The x and y-component of the reaction @ A 4. The reaction @ AThe smooth uniform rod ABAB is supported by a ball-and-socket joint at AA, the wall at BB, and cable BCBC. The rod has a mass of 19 kgkg . (Figure 1) 1. Determine the tension in the cable. 2. Determine the normal reaction at BB. 3. Determine the xx, yy, and zz components of reaction at AA using scalar notation.Determine the magnitude and direction of the angle theta of the force FAB that must be exerted on bar AB to maintain equilibrium of the system. The suspended mass is 110 kg. Neglect the size of the pulley at A and treat all pulleys as smooth. What should happen to maintain the equilibrium of the system if FAB acts with an angle theta= 0°?Consider g = 9.81 m/s2.
- The uniform block having a mass m rests on the top surface of the halfcylindershown. Show that this is a condition of unstable equilibrium if h > 2R.PROBLEM 1: The 1500-kg beam ABC has fixed support at A and connected to beam BD by hinge at B. Beam BD has a mass of 2000 kg and supported by a cable at D. The cable is attached to the 20-cm-diameter pulley at E and pulled vertically at the other end, by tension T. Given: a = 1.5 m; b = 0.9 m; c = 1.8 m d = 0.6 m; e = 1.4 m; θ = 75°. Calculate the required tension to maintain in equilibrium. (ANSWER: 12.830KN) Calculate the moment reaction at A. (ANSWER: 28.499) Calculate the total reaction at A. (ANSWER: 22.192) Calculate the vertical reaction at E. (ANSWER: 25.223)The mass of the uniform bar below is 20 kg. 1. Determine the magnitude of the reaction NB acting on the smooth uniform bar. 2. Determine the magnitude of the reaction Ax acting on the smooth uniform bar. 3. Determine the magnitude of the reaction Ay acting on the smooth uniform bar.