1. For the following cable system, the sag at B and D is 4 ft. Determine...
Determine the reactions at the support A and the tension in the cable. 4 ft 4 ft F 2 ft E leli 5 ft B 5 ft 5 ft F At Suppoft A: 3nkoun Ar, Ay Az @4. LL 4 ft 4 ft F 2 ft E leli 5 ft B 5 ft 5 ft F At Suppoft A: 3nkoun Ar, Ay Az @4. LL
Determine the reactions at A and D. Determine the tension in the cable. D 4 ft 20 lb/ft 25 lb-ft 3ft E A 4 ft 10 ft 2 ft B
Q.1 The member AB is supported at B by a cable and at A by a smooth fixed square rod which fits loosely through the square hole of the collar. If F= {20i-40j-75k} Ib, determine the x, y, and z components of the reaction at A and the tension in cable BC. (Note: possible reactions at A are Ay, Ax, Mx, My, and Mz) 8 ft 6 ft A 12 ft 4 ft 15192 JUN
Determine the reactions at the joint A and the tension in cable BC. Joint A is made up of a square rod through a smooth square hole. identisy of support rtactiens ion in the cable. $quart rod, Smoth squart Keyward: jont A 5 unknown (able 6 lunnown) Ax X Ay Az V MAX- 8 ft AToAM MA2-ZV GO1.57 6 ft 3 ft 2 y F= (-60i + 40j-30k) lb
Q. 3 The member is supported by a pin at A (Note: reactions at A are Ay, Ax, Az, My, and Mz) and cable BC. If the load at D is 300 lb, determine the x, y, and z components of the reaction at A and the tension in cable BC. (Note: possible reactions at A are Ay, Ax, Az, My, and Mz). (2 points) 1 ft, 2 ft B. 2 ft 6 ft ft D
Check my work 4 Problem 04.105 - Boom support 1 points A 10-ft boom is acted upon by the 820-lb force shown in the figure. Determine the tension in each cable and the reaction at the ball-and-socket joint at A. (Round the final answer to one decimal place.) eBook 6 ft Hint E Print 6 ft References D B 7 ft 6 ft C 4 ft w The tension in cable BD is The tension in cable BE is The...
Tension question Cable ABC has a length of 6 ft and is used to support the 40 lb load (B is a frictionless pulley): 5 ft 1 ft A) Determine the position x and the tension in the cable that is required for equilibrium
5) For the following beam 20 kipsift 30 kips 5 kips/ft 5 ft 5 ft 2 ft 4 ft The support reactions are most nearly: A) A -10.3 k; Ay 16.5 k; By-69.7 C)A,--10.3 k; Ay-6.5 k; By:96.7k B) Ax 12.3 k; Ay 6.5 k; By 19.7k D) Ax 20.3 k; Ay 16.5 k; By 68.8 k
As shown, a uniform beam of length d = 5.70 ft and weight 49.2 lb is attached to a wall with a pin at point B. (Figure 1) A cable attached at point A supports the beam. The beam supports a distributed weight w2 = 24.0 lb/ft . If the support cable can sustain a maximum tension of 300 lb , what is the maximum value for w1? Under this maximum weight, what is FBy, the vertical component of the...