Chapter 7, Problem 115P

please answer with a free body diagram.

Can you please answer the question in the image

Q1: The beam is subjected to 75 N load as shown in figure. Determine the tension developed in wires AB and AC and the reactions at the ball and socket joint O. 4m 4m 5m 6m

If the roller A is replaced by a pin, determine the corresponding reactions at A and then Identify the ff. (a) The bar which has the largest tensile force. What is the value? (b) The bar which has the largest compressive force. What is the value? 3m 2.7 kN 30 3m E 4.5 KN 3m 1.8 KN 30 3m Assume for all bars: A = 500 mm² and E = 200 kN/mm²

After an unfortunate accident at a local warehouse, in which a jib crane collapsed and injured a worker, the owners want to determine the cause. A diagram of the jib crane is shown in the image. The horizontal steel beam had a mass of 93.60 kg per meter of length and the tension in the cable was T = 12.69 kN. The crane was rated for a maximum load of 1000 lbs. Consider that d 5.580 m, S = 0.594 m, X = 1.450 m, and h 1.890 m. What was the load WL on the crane before the collapse? WL N W. What was the magnitude of force at the attachment point P? Fp

A structure member is subjected to force (T = 50 kN). Also, a uniformly distributed load is applied to member CD. If the reaction at roller support is 25 upward. Determine the minimum value of (w) and reaction at C.

The structure shown consists of a single member ABCDE with a pin support at A and a roller support at E. Points B and D are at the midpoints of their respective segments. Determine the internal normal force acting on H which are located immediately to the right of B. Take N = 2 kN, O = 5 kN, and P = 5 kN.

one end of the uniform beam of mass 50 kg is hinged to a wall. The other end of the beam is supported by a cable that makes angles e = 30 degrees with both the wall and the beam. A box of mass 10 kg is hanged at the end of the beam with a rope. The magnitude of the forces at the hinge. * Hinge rope M3=10kg cable

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