Figure 2-83 7. Determine the maximum sag and the largest tension in 4k 24 1 4k the 30 ft 30 ft 30 ft 30 It symmetrically loaded cable of the attached figure.
Q: 1okN cable 30° 2n t 4m zm t zm t
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Q: 0.35 m B. 0.4 m 20° -y 15 kg 0.7 m 0.45 m А W
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Q: 4. A cable 800 m long weighing 1.5 kN/m has tension of 750 kN at each end. Note: Treat this as…
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A: Solution Given That Load= 50 kg/m
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Q: SITUATION. The tension in the supporting cable BC is 600lbs 6' 2' B 7' 1.5' 2.5 2.5'
A: Given Tension force BC = 600 lbs
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Q: 600 mm A 250 mm C Q = 480 N
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A: To find :- a. Sag at B b. Maximum tension in cable system
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Q: Situation 6. A 5 x 8-ft sign of uniform density weighs 270 lb and is supported by a ball-and-socket…
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Q: SOLVE FOR 30 MINUTES.
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A: GIVEN- L=160ft
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Q: A F 900 N 0.6, 0.9 0,9 1.5 m m
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- The left support of the cable shown islocated 10 m below the right support.The lowest point on the cable is 13 mbelow the right support. If the maximumtension in the cable resulting from auniformly distributed load w along thehorizontal is 400 kN, determine:a. The angle between the cableand the horizontal at the rightsupport;b. The magnitude of the distributedload wc. The length of the cable.A cable AB shown in Fig.P4.16 suppose a uniformly distributed load of 200 N per linear meter. Determine the maximum and minimum values of the tension in the cable, and the total length of the cable. Answers:L = 127.82 mTmin = 20149 NTmax = 25133 NA vertical pole is subjected to a pull of 620N in the yz plane and 15 deg below the horizontal. The guy wires AB and AC are attached to supports in the xy plane. The pole rests in a socket. What is the tension in each cable?
- In a horizontal curve where radius is 610m and design speed 105km/hr. A superelevation is applied revolved about inside edge. A cable is placed 10cm below the crown point,(center line of the cross section) at the beginning ofthe horizontal curve. If it is assumed that the elevation of the crown point is taken as 855.20 then calculate the elevation of the cable? Width of road is 8m.One end of cable AB is fixed, whereas the other end passes over a smoothpulley at B. If the mass of the cable is 1.5 kg/m and the sag is H = 1.8 m,determine the mass M that is attached to the free end of the cable.Determine the Velocity of Cable at Point C and block W. And the relative Velocity point C and block W with respect to Block E. Note: Block E is moving downward with a velocity of 4m/s.
- The W (newtons) traffic light is held up by the same cables, AB and BC. 2.50 N/m each. Determine the shortest possible possible length of each cable and the corresponding vertical distance h if the maximum allowable horizontal force exerted by a cable on a vertical post is 600 N. P (in kN) or W (in N) = 516 Thank you in advance.The 8-m-long cable is anchored to the ground at A.If z = 5 m, determine the location +x, +y of point A. Choosea value such that x = y.Slider block B moves to the right with a constant velocity of 250 mm/s. Determine (a) the velocity of slider block A, (b) the velocity of portion C of the cable, (c) the velocity of portion D of the cable, (d) the relative velocity of portion C of the cable with respect to slider block A.
- If cable AD is tightened by a turnbuckle and develops a tension of 1300 lb, determine the tension developed in cables AB and AC and the force developed along the antenna tower AE at point A.Determine the angle ø (0°≤ø≤90°) between cables BA and BC so that 500N vertical force has a component of 250N which acts along cable CB, from C to B. Set angle = 60°The horizontal boom OC, which is supported by a ball-and-socket joint and two cables, carries the vertical force P = 8 kN. Neglect the weight of the boom. 1. Which of the following most nearly gives the tension in cable AD in kN? a. 12.77 b. 15.66 c. 18.61 d. 9.150 2. Which of the following most nearly gives the tension in cable CE in kN? a. 4.512 b. 7.01 c. 8.91 d. 3.51 3. Which of the following most nearly gives the reaction at point O in kN.? a. 6.32 b. 5.81 c. 14.71 d. 13.96