Problem Statement Based on Problem 5-47 from the textbook. Determine the reactions at the pin A and the tension in the cord. Neglect the thickness of the beam. a=1.9 m b=4.1 m P=36 KN F=31 KN 13 P 12 B C
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- A polyethylene tube (length L) has a cap that when installed compresses a spring (with under-formed length L1) by an amount ?? = (L1 = L). Ignore deformations of the cap and base. Use the force at the base of the spring as the redundant. Use numerical properties given in the boxes. (a) What is the resulting Force-in the spring, Fk? (b) What is the resulting Force in the tube, Ftl (c) What is the filial length of the tube, Lf? (d) What temperature change ?T inside the tube will result in zero force in the spring140 lb 12 lb/in. 8 in. Problem 5-54 what are the values of the reaction forces O r1=150KNM r2=177KN O r1=177KN, r2=150KN O r1=177.9167N, r2=157.0833KN O r1=171.9KN, r2=150KNProblem Statement Based on Problem 5-11 from the textbook. Determine the reactions at the supports. W=430 N/m a=3.3 m b=1.5 m a W B
- Problem Statement Based on Problem 5-47 from the textbook. Determine the reactions at the pin A and the tension in the cord. Neglect the thickness of the beam. a=2.1 m b=4.8 m P=18 KN F=40KN 13 P b BProblem 18 Find the horizontal and vertical components of the pin reactions at C and the magnitude of the reaction at B. 1 m 1 m 800 Nm -1 m- OB m 400 N 2 m-Situation 3 - The portable camping tool shown in the Figure AP-4.7 is W E to support weight W at a variable distance x from D. In this problem, L1 = 540 mm, h1 = 240 mm, hz = 120 mm. 7. If W = 2000 N and x = 200 mm. hị Calculate the reaction at B. Answer: 740.74 N 8. If W = 2000 N and x = 200 mm. Calculate the total reaction at pin C in N. Answer: 4529.77 N h2 9. If the breaking strength of the cable FG is 1800 N, determine the ha maximum weight W that can be supported if x = 200 mm? Answer: 761.64N Li Figure AP-4.7
- Problem Statement Based on Problem 5-40 from the textbook. Determine the stiffness k of each spring so that the applied force F cause the bar to tip0 = 15 degrees when the force is applied. Originally the bar is horizontal and the springs are unstretched. Neglect the weight of the bar. C F a www B b F=35N a=0.8 m b=1.7 m 7 wwwBased on Problem 5-40 from the textbook. Determine the stiffness k of each spring so that the applied force F cause the bar to tip = 15 degrees when the force is applied. Originally the bar is horizontal and the springs are unstretched. Neglect the weight of the bar. F=30N b=1.7m a=0.8 m Unique Values for Each Student: C F a www B k b wwwProblem Statement Based on Problem 5-40 from the textbook. Determine the stiffness k of each spring so that the applied force F cause the bar to tip0 = 15 degrees when the force is applied. Originally the bar is horizontal and the springs are unstretched. Neglect the weight of the bar. C F a www B b F=15N a=1.0 m b=1.8m
- Problem. Consider the following problem. Find the displacement of node 4. Assume F2=200 N, F3=300 N, F4=400 N and Kı= 100, K2= 200, and K3= 300 N/mm. F. 3 2 3 4 Note: The stiffness matrix of individual springs should be first written, then the equilibrium equations at each node should be written, expanded in terms of nodal displacement, and used to perform the assembly of the global stiffness matrix of the problem. Then, the appropriate boundary conditions should be applied and the nodal displacement vector should be found. Every step should be shown; missing any step would result in point deduction even if the final answer is correct.Problem # AJ Assuming it can ONLY take tension, find the Tension in the cable "AC" B) Calculate the reactions at points "C" and "B“G - Useithe below figure and ignore self-welght 350 mm 742 mm- B. SI0 mm 240 mm 450 mm- 41° 5 kNSituation 5 - The crane shown in Figure AP-4.13 carries the load W. The crane is hinged at B and supported by a flexible cable AC. For this problem, x1 = 10 m, x2 = 8 m, and h = 18 m. The load W is 20 kN. 13. What is the tension in the cable AC, in kN? Answer: 22.63 kN 14. What is the resultant XI reaction at B in kN? Plgure AP-4.13 Answer: 39.40 kN 15. If the maximum load on the cable is 50 kN, determine the largest value of W in kN. Answer: 44.19 kN