Question 2) Determine all member (internal) forces on the system given that P is 35 N, and c is 1000 cm. 2P Oc = 80° a Og = 40° = 60° %3D A B c2- e/2-
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Q: Q/ Find the force just in members BD, CD and CE? B 3 m 4 m 3 m 3 m 3 m 3 m 3 m 30 kN 30 kN 90 kN
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Q: 2. Determine the force in members DH and CI. Indicate if the member is in tension or compression. 50…
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- Find the internal force systems acting on sections 1 and 2.The bar ABC is supported by three identical, ideal springs. Note that the springs are always vertical because the collars to which they are attached are free to slide on the horizontal rail. Find the angle at equilibrium if W = kL. Neglect the weight of the bar.1. What is a Spatial Force System? 2.Three-dimensional equilibrium problems for a rigid body can be solved using what procedure?
- A man holds a 35-kg ladder in his hands perpendicular to his hands (Figure 6). The free body diagram is shown on the right. If the maximum compressive force the person can withstand is 400N, determine:a) The minimum value of θ so that the person is able to hold the ladder.b) The compressive force at the end of the ladder at that timeP1=215 N P2=325 N P3=150 N L1=3m L2=4m 1. Draw a "free body diagram". The diagram should be for members BE, BF, CF, and DF to help solve. 2. What is the force on members CF, BF, BE? Is each of these members having tension or compression?Please specify which of the following forces are not conservative forces______. a. Reaction normal force b. Reaction friction force c. Linear Spring Force d. Weight
- Question 2) The figure shows a mechanical model of the Russel fracture traction device and the leg. The leg is held in balance in the position indicated by the two weights attached to the two cables. The combined weight of the leg and the cast is W=210 N. The horizontal distance between points A and B where the cables are attached to the leg is L=100 cm and the vertical distance is d=6 cm. Point C is the center of gravity of the cast and leg at three quarters of the L measured from point A (3L/4= 75 cm). The angle that cable 2 makes with the horizontal is measured as β=33°. Accordingly, in order for the leg to remain in balance in the shown position; a) Find the tensile force T1 in cable 1. (Write your result in N) b) Find the tensile force T2 in cable 2. (Write your result in N) c) Find the angle α of cable 1 with the horizontal. Response2. Forces (Figures Needed) 2.2. A load of 100 lbf hung from the middle of a rope, which is stretched between tworigid walls 30ft apart. Due to the load, the rope sags 4ft in the middle. Determinethe tension in the rope. 1 Free-body Diagram only1. A museum of modern art is displaying an irregular 426-N sculpture by hanging it from two thin vertical wires, A and B, that are 1.25 m apart. The center of gravity of this piece of art is 48.0 cm from its extreme right tip. a). Find the tension in each wire. Show the step by step and complete solution. Draw also the complete FBD (as seen in the figure).
- The system is made up of a bar, supported by a pin at point A and by a smooth collar at point B (the collar slides on the ABG bar). The collar is pinned to bar BDE, and bar BDE is supported by a pin at D and a cable at end E. Determine the force P such that the force in the cable equals to T. With T= 26 lb, a=4 in, b=9 inWhy is the wall reaction on the left side not considered in the calculation of force PThe uniform plate has a weight of W = 450 lb. Suppose that F= 250 lb. The plate is supported by cables A, B, and C as shown below. Determine: A) The tension in the supporting cable A. B) The tension in the supporting cable B. C) The tension in the supporting cable C.