Determine the tension developed in cables OB, OC, and the spring OA for equilibrium.
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- Q) Determine the tension in cables BA and BC necessary to support the 60 kg cylinder as shown in figure helow. , TBC Solution: Tecsin45 TRAsing 45 X. Ta:cos0 Taccos45 W = mg 53 W =mg = 60*9.81 = 588.6 N 0 = tan (3:4) = 37 Σ-0 Tục cos45 – TBAcos37 0 (1) EF, = 0 TBCsin45 + TBASin37- w 0Question 2 Find the value of The reaction force at the support A. (X,XX,XXX represents the last digits number pf your IC) 4m 400 KN 10 m B 60 KN 4m 10 m. 157KN 4m 17 m DItem 2 Consider the following hanging mass system for the following problems. Before answering the questions below, draw two separate free-body diagrams of ring C and then ring B. Be sure the FBDS are neat a properly labeled. You will turn them in with your written work. (Figure 1) Figure 30° E 45° F 1 of 1 Part A cb Deturmine the tension developed in cable if cylindar E weighs 40 lb and 0= 15°. FCB= Submit ▾ Part B WF = 5 ΑΣΦ 11 vec Submit Request Answer If cylinder E weighs 40 lb and 0 = 15°, determine the weight of cylinder F. Express your answer with the appropriate units. 15. ΑΣΦ ↓↑ vec ? Request Answer ? lb 2 of 5
- Calculate Tension BD if P = 100 kN. 1m 2.5 m 250 N -1.5 m- 2 m 1.5 m- Use the editor to format your answerSTATIC I need the answer within 1 hour. Thanks Using the knot method, find the force that each element in the truss system carries. Indicate whether these elements are under tensile force or under compression force. F1(N)=11 , F2(N)=23what is the compression in 2 springs after the block A with 50 N is falling off on it from the rest note :-Initially both springs are unstretched. A 10m 5m 20N/m = 30 N/m
- A weight Wis dropped from a heighth on the mid-span at C of a simply-supported beam as shown, where the spring always remains vertical and is at its natural length when the beam is horizontal. For W-90 lb and the stiffness of the spring k-313 lb/in, determine the static elongation of the spring (apring). Le., h-0. [in] W 40" h 1"IEquilibrium of a particle: ΣF = 0 .. ΣF = 0 and Fy Find the tensions in the two cables which are supporting a load of 10 kg. h = 2.5 m, d₁ = 3.75 m, and d₂ = 3.75 m. Give numeric answers to three significant figures. e) h AC = d₁ BC= α с X W d₂ Substitute the known weight and angles a and B into your equations, then solve them simultaneously to find the tensions in cables AC and BC B -BProblem. 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.
- For the spring assemblages shown in Figures 2, determine the node Displacements, the forces in each element, and the reactions. Use the direct stiffness Method for all problems. Su0 KN/ m 2EN 3. 3 3 Suo KNIM Suo EN/m 3. ZEN Fig 2TOS BASIC Determine the support reactions: 3 m 43.8 kN/m EM BY on {T -7.2 m- =0 +R 29.2 kN/m 222.5 kN -3.6 m- -3.6 m-Each spring has an unstretched length of 2 m and a stiffness of k = 300 N/m.(Figure 1) Figure x A 4 m C B 12 m Determine the stretch in OA spring required to hold the 15-kg crate in the equilibrium position shown. Express your answer to two significant figures and include the appropriate units. SOA = Submit μA Part B Value Units Previous Answers Request Answer X Incorrect; Try Again; One attempt remaining ? μA P Pearson Determine the stretch in OB spring required to hold the 15-kg crate in the equilibrium position shown. Express your answer to two significant figures and include the appropriate units. ?