Draw FBD at point A and determine the force developed in each cable used to support the 40kN crate (Figure 5)
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Q: a. Draw the free body diagram of the force system and identify the forces involved in the problem.…
A: Given: The force system is shown below:
Q: Q1: - For the frame shown in figure 1 below is subjected to two forces ( P-20 kN and Q=30 kN).…
A: The frame is shown below: Two forces are P = 20 kN and Q = 30 kN.
Q: a. Determine the forces in all members as shown in figure 3 due to the applied loads and state if…
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Q: Activity 2. The tripod shown supports a load P = 1500 N. Compute the force in each leg of the…
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Q: plve for the forces in wires a, b, c and d. 45° b. 60 150 lb C.
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Q: 6. Find the tension in each cord in Fig. 2.6 if the weight W ofthe suspended body is 150 N. 35
A: We can use Lami's theorem to solve both parts, Lami's theorem is stated as, "When three forces…
Q: Determine the tensile forces in the cables AB and BC supporting the load of 250 N for the force…
A: Let's consider the tension force in the cable AB is TAB and in the cable BC is TBC. The free-body…
Q: Find the force in member BC
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Q: Q2 Figure Q2 shows the cantilever beam being fixed at support A. (a) Construct the free body diagram…
A: given: (a) free body diagram of the member;
Q: 04. The x-component of force P is 750 N as shown in figure below. Compute the force P and its…
A: Given data X- component of force p = 750 N
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Q: The given structure, shown in Figure 1, is composed of two beams with a rectangular profile b x h,…
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Q: 2. The crate weighs 450 kg and is supported by three cables as shown in the figure 2m below. 1m a.…
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Q: The frame below is used to support the distributed load as shown. 12) a) Find the reactions at C and…
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Q: Find the force in each cable needed to support the load of 300 pounds. You may want to use vectors.…
A: As per Bartleby's policy, only the first question can be solved. Please repost the second question…
Q: Q2/Draw the free body diagram (F.B.D) of the rigid system shown in fig. (2)
A: Free body diagram is the diagram that shows all the forces acting on the system.
Q: Question 5 As refer to the frame structure shown in figure 5, (a) Determine the force (in term of x-…
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Q: Q2: The cylinder A weighs 660 N and it is supported by the vertical smooth wall and the cable system…
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Q: A force P=95 lb causes the angle = 60° for equilibrium. Cord AB is 2 ft long. Take &= 50 lb/ft.…
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Q: What would be the maximum weight W of the block, shown n the following figure, so that the tension…
A: Correct ans is 22.32N
Q: 3. A 60 pound force is attached to the 90° weightless bar ABCD at point B as shown below. The bar is…
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Q: 3. A 60 pound force is attached to the 90° weightless bar ABCD at point B as shown below. The bar is…
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Q: The truss is subjected to the system of forces as shown in the following figure. The truss is…
A: Data given- F = 600 N Force in member CE ?
Q: 1. The five forces shown in Figure 1-59 are in equilibrium. Compute the values of P and F. 20 KN 60°…
A: Given data: F1=20 kNF2=30 kNF3=40 kN Need to determine the values of forces P and F.
Q: 2m 3m 30° D.
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Q: Figure (1) with a single force at point A and a pair whose forces act at poin
A: Force system can be transfer as below
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Q: The structure shown in Fig(1) consists of 8 650 kN members. Determine the force supported by each…
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Q: What would be the maximum weight W of the block, shown in the following figure, so that the tension…
A: Ans is 401.82N
Q: Q2. Determine the force in members FH, EH and EG shown in Figure 2 using method of sections. 1 kN 3…
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Q: If the wire is supported on an articulated support at its left end (x = 0), and is suspended by a…
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Q: The structure consists of two bars. Axial loads 40 kN and 10 kN are loaded as shown in Figure B.…
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Q: Q1: - For the frame shown in figure 1 below is subjected to two forces ( P=20 kN and Q=30 kN).…
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Q: The truss is supported by short links at A, B, and C. Suppose that F = {700j} lb. (Figure 1)
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Q: es in Figure (1) with a single force at point A and a double acting B has forces at points A
A: The force system can be shifted by point load and a moment as below
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- Cable ABC of length 5 m supports the force W at B. Determine (a) the angles 1 and 2; and (b) the force in each cable segment in terms of W.The two main cables of the Akashi Kaikyo suspension bridge in Japan have a span L=1990m and a sag H=223m. The loading on each cable is w0=444.7kN/m (without traffic) along the horizontal. Determine the corresponding maximum force in one of the cables.The horizontal boom carries the weight W=108lb at A. The boom is supported by the cables AB and AC. The tensions in the cables are TAB=120lb and TAC=160lb. Determine the single force R that is equivalent to three forces acting on the boom at A.
- The cable supports three 400-lb loads as shown. If the maximum allowable tension in the cable is 900 lb, find the smallest possible sag hC at C.The cable is loaded by an 80-lb vertical force at C and a horizonal force P at B. Determine P.A force of P=280 N is applied on semicircular rod at point B. Determine internal forces at point J if θ=30°. (draw free body diagram)
- At the top of a steel pole, there are two cables as shown in the figure. It is known that the weight of the pole is vertical and that the force applied horizontally at the top of the pole is 2500 N. If the 2500 N force is parallel to the z-axis (alpha=90), calculate the Tension in each cable (T1-3 and T1-4).Replace the three forces acting on the guy wires by a single force acting on the flagpole. use t1= 200 lb, t2= 400 lb, and t3= 350 lb.Rigid arm AB is subject to a downward force F=270 lbf. It is supported by asquare shaft journal bearing at A and a cable BC.A. Draw a clear and large free-body diagram (FBD) to show all reaction components on AB. Ifany are not engaged, cross them out and add the note “N.E.” for “Not Engaged.” You do NOTneed to set up any equations or solve for any of the reactions.B. Find the unit vector for cable BC.
- 1. Three cables are used to tie the balloon that isshown in the figure. Determine the vertical force P thatexerts the balloon at A, if it is known that the tension in the wire ADis 641 N. 2. Three cables are used to tie the balloon that isshown in the figure. If the balloon is known to exert a force800 N vertical at A, determine the tension in each cable.The collar C is fixed to rod AB using a glued bond that allows a maximum force of 405 N parallel to the axis of the rod. The collar has weight W acting in the negative z direction. Determine the weight W in N of the collar that will cause the glued bond to break as shown in figure.3.2 determine the force p required to hold the sector gate closed, as shown in figure 3. the width of the gate is 4 m