Problem 2. 2D Equilibrium. The weight W hanging by the system of cables shown in the...
A container is supported by three cables that are attached to a ceiling as shown. Determine the weight W of the container, knowing that the tension in cable AB is 10 kN. The weight W of the container is _______ kN.
QUESTION 2 Two cables tied together at C are loaded as shown. Knowing that W=290 lb, determine the tension (a) in cable AC, (b) in cable BC.QUESTION 3 If two cables tied together at Care loaded as shown in Figure Question 2. Determine the range of values of W for which the tension will not exceed 210 lb in either cable.
Cables AB, AC, and AD support the bucket hanging from the knot at A. 16 in - in و - If the tension in cable AD is 93.1 lb, determine the weight of the bucket in pounds. (For clarity: knot A lies directly below the origin of coordinates. Points B, C, and D lie in the xy-plane.)
A weight is hanging from a ring C. Two cables are attached at C, cable CB and CD, both attached to hooks. Calculate: A L2 350 155° COLLAPSE IMAGES Q = 105 lb W = 49 lb L1 = 4 ft L2 = 10 ft The tension in cable CD. ENTER 3 tries remaining. 1 point(s) possible The tension in cable CB. ENTER 3 tries remaining. 1 point(s) possible The resultant moment at A. (Clockwise moment is positive) ENTER 3...
Two cables are tied together at C and are loaded as shown. If W=190 lb, determine the tension (a) in cable AC and (b) in cable BC. Determine the range of values for W such that the tension will not exceed 240 lb in either cable.
In the weight and string setup shown, the weight of the hanging object is W = 3.5 lbf, the angle θL=46.1o, and the angle θR=69.9o. Determine the tension TL of the string on the left. T Weight W In the weight and string setup shown, the weight of the hanging object is W 3.5 lbf, the angle eL 46.1, and the angle eR 69.9 Determine the tension TL of the string on the left
Q1. A weight of W is supported by three cables AD, BD and DE as shown below. Cables AD and BD are attached to a vertical wall. Points A, B and C are on the y-z plane while Points C, D and E lie on the x-y plane. Line D-E and Line A-C-B are parallel to x-axis and z-axis, respectively. Given AC-CB and AB-AD-BD, W-10 kN and F -5 kN, determine the tension force in cables AD and BD. (7...
Problem 1 Equilibrium of a Body in 2D (50pts) The ramp of a ship has a weight of 500 lb and a center of gravity G. An operator weighing 180 Ib is standing at point E, 4.5 ft from A, as shown. Determine the tension on the cable CD needed to just start lifting the ramp, i.e when the reaction at B becomes zero. Also, determine the horizontal and vertical components of force at the hinge at A. Show Free...
Boom AC has negligible weight and is in equilibrium. The boom is supported by cables at D and E and a ball-and-socket joint at A. The suspended crate weighs 114 lb. What is the tension (lb) in cable BDC? What is the tension (lb) in cable CE? What is the x component of the reaction (lb) (exerted on the boom by the wall) at A? What is the y component of the reaction (lb) at A? What is the z...
A crate is supported by three cables as shown. Determine the weight of the crate knowing that the tension in the cable AC is 576 lb. (Round the final answer to two decimal places.)