4/75 Determine the componenta of all forces acting on each member of the loaded frame. 45 Problem 4/75
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Q: 4/68 Determine the components of all forces acting on each member of the loaded frame. R 45 45 A
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A: Given data Horizontal component (Fx) = 60 N
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Q: 100 lb 1 ft - 50 lb -3 ft- 3 ft 150 lb
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Q: Determine the horizontal and vertical components of force at pin B and the normal force the pin at C…
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Q: 3-58. If the resultant couple of the three couples acting on the triangular block is to be zero,…
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Q: Q1/ The 500-kg uniform beam is subjected to the three external loads shown. Compute the reactions at…
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Q: Determine the x, y, z components of reaction at the fixed wall A. The 150N force is parallel to the…
A: Given data as per question Force applied along z axis = 150 N Force applied along y axis = 200 N
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Q: Q-4: Two cables are used to secure the 1.9 mB overhang boom in position and support the 8000 N load.…
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Q: 01: The bracket supports three external forces as shown. It is just FIXED at "O". In other words,…
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A: Consider the free body diagram as shown below for the given system.
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- Determine the x, y, z components of reaction at the fixed wall A. The 150N force is parallel to the z axis and the 200N force is parallel to the y axis. Determine the x, y, z components of the moment of reaction at the fixed wall A.Four forces are exerted on the eyebolt as shown. If the net effect on the bolt is a direct pull of 565 lb in the y-direction, determine the necessary values of T and θ.Assume F1 = 330 lb, F2 = 240 lb, F3 = 430 lb, ϕ= 29°.Four forces are exerted on the eyebolt as shown. If the net effect on the bolt is a direct pull of 615 lb in the y-direction, determine the necessary values of T and θ.Assume F1 = 395 lb, F2 = 250 lb, F3 = 420 lb, 34°.
- The cable AB prevents bar OA from rotating clockwise about the pivot O. If the cable tension is 820 N, determine the n- and t-components of this force acting on point A of the bar.Determine the horizontal and vertical components of force that the pins at A and B exert on the frame. 4.1 The magnitude of the horizontal component Ax at the hinged support A is Blank 1 kN. 4.2 The magnitude of the vertical component Ay at the hinged support A is Blank 2 kN. 4.3 The magnitude of the horizontal component Bx at the hinged support B is Blank 3 kN. 4.4 The magnitude of the vertical component By at the hinged support B is Blank 4 kN.The 90-m microwave transmission tower is steadied by three guy cables as shown. Cable AB carries a tension of 11 kN. Express the corresponding force on point B as a vector.
- If F=1kN,the magnitude of the vertical reaction force developed at the point B?The tower crane is used to lift the 1.8-ton load upwards at a constant speed. The mass center of the 1.4-ton beam BD is at G1, the mass center of the 0.5-ton beam BC is at G2 and the mass center of the 6.8-ton counterweight C is at G3. A) Determine the moment of force exerted by the load, counterweight and beams together around point A and point B. Let counterclockwise rotation be a plus.Express the answers with three value digits, and separate the force moments for point A and point B with a comma. B) To get the correct answer to the calculation in the previous task, should one assume that the tower crane is a rigid body? (choose the right answer) - Yes, but it is always a bad approximation in reality: all bodies are deformable (regardless of size)- Yes, because it is a good approximation, it would only be bad if the load was so heavy that the crane bent significantly- It does not matter, you can assume it or not, you always get the same mathematical equations no matter what you…If a support prevents rotation of a body about an axis, then the support exerts a moment the body about that axis and force ؟ Select one: True False
- Determine the sum of the moments of the forces about point O.The member is supported by a square rod which fits loosely through the smooth square hole of the attached collar at AA and by a roller at B. The member is subjected to the forces F1 = 350 N , F2 = 450 N , and F3 = 600 N . Determine the normal reaction force of roller at B. Determine the components of the reaction force of the support at A using scalar notation. Determine the components of moment of the reaction at A using scalar notation.The mass of the luggage carrier and the suitcase combined is 12 kg. Their weight acts at A. The sum of the moments about the origin of the coordinate system due to the weight acting at A and the vertical force F applied to the handle of the luggage carrier is zero. Determine the force F (a) if α = 30; (b) if α = 50