Problem Statement Based on Problem 6-64 from the textbook. Determine the force P required to hold the mass, m, in equilibrium. M=66kg B AF P OO
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- The bent rod of negligible weight is supported by the ball-and-socket joint at B and the cables attached to points A and C. Find the forces in the cables and the magnitude of the reaction at B. Dimensions Figure P.5.39The mechanism of negligible weight supports the weight W. Find the value of for equilibrium. Is the equilibrium position stable or unstable?STATIC (I need answer quickly. Thanks) The system given above is in static equilibrium, the position of the ABC arm is controlled by two hydraulic pistons parallel to each other and the forces they apply are tensile forces. Find the forces P and Q applied to the ABC arm from the C point with respect to the FAE and FDG forces.
- Find the smallest value of P for which the 400-lb crate in the figure below will be in equilibrium in the position shown.1. Three forces act on particle A located at the origin of an x-y coordinate system. Force B acts at 140o from the positive x-axis, and force C acts at 15o from the positive x-axis. The weight acts down with a magnitude of W = 100 kN. Use the equations of equilibrium to determine the magnitudes of B and C such that particle A is in equilibrium. For problems 2-5, consider the following scenario. Equilibrium of a particle: ΣF=0 ∴ ΣFx=0 and ΣFy=0. Dimensions are: h = 2.5 ft, d1 = 4.75 ft, and d2 = 3 ft. Give numeric answers to three significant figures. The load W = 50 lb. Carefully draw a neat, labeled, free body diagram of particle C. Based on your FBD develop two equilibrium equations in terms of the symbols defined on your free body diagram. Find angles α and β. 5. Using your FBD from problem 5, substitute the known weight and angles α and β into your equations, then solve them simultaneously to find the tensions in cables AC and BC. These houses be the answers , 1. B = 117.9 kN,…4. A uniform ladder 10m long and weighing 350N rests against a smooth wall at an angle of 30° with the wall. A 700N man stand 6m up from the bottom of the ladder. Find the horizontal force necessary at the base to keep the ladder from slipping. Draw the FBD
- For the system shown in Figure , calculate the tension AB, mass m, and applied force P to keep the system in equilibrium by using force resolution method. D A 25° 130° 60° B 50kg m kg FigureThe figure shows a schematic for a hydraulic jack. Lever AC is hinged at A. The upper valve at D is closed; the lower valve at D is open. The density of hydraulic ‡uid is 833 kg/m3. Make an estimate for the force required at C to hold the system in equilibrium. You may assume the lever is approximately horizontal, and you may neglect the weight of the platform on which the car is sitting. Be sure to include the assumptions you must make in order to obtain this estimate.Learning Goal: To use the equations of equilibrium for a three-dimensional object to solve for the support reactions. The plate shown in (Figure 1) is supported by a roller and a cable in the xx-direction at AA, a ball-and-socket joint at BB, and a roller at CC. A force FFF = 6.6 kNkN is applied at the centroid of the plate parallel to the yzyz-plane and making an angle of θθtheta = 34 ∘∘ with the xyxy-plane. The sides ABAB and BCBC of the plate have length LLL = 1.2 mm . What is the reaction force in the yy-direction at point BB? Let a positive force act in the positive yy-direction. What is the reaction force in the zz-direction at point CC? What is the reaction force in the zz-direction at point AA? What is the reaction force in the zz-direction at point BB? What is the tension TT in the cable? What is the reaction force in the xx-direction at point BB? Let a positive force act in the positive xx-direction.
- A weight W= 120 kN is being supported by steel sections with force T, force F, andforce C. The coordinates of A, B, C, and D are given. Assume that E is the origin(0,0,0). Determine Forces T, F, and C. (Hint: Produce three equations fromequilibrium of force system)Note: The Forces T, F, and C must be computed accurately to design the proper sizes ofsteel sections in the subject “Steel Design.”Please help. Please make sure you clearly state how you got the numbers you got and why you are using them. Also please make sure you clearly put your formulas and label your units along the numbers that you are using. In the following frame ilustration, F1s 60 N and F2 is 9 N. What is the tension in the cable AB and the reaction force vector necessary to keep the system in static equilibrium? Give the X component reaction force at C( for an x axis going left to right). Also please solve for the rest of the 3 unknowns please. Thank youFind the smallest value of Pfor which the 400-lb crate in the figure below will be in equilibrium in the position shown.