3-6. The gusset plate is subjected to the forces of three members. Determine the tension force in member C and its angle for equilibrium. The forces are concurrent at point O. Take F = 8 KN.
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A: (a) Maximum possible distance X= 0.825 m (b) Fx = 350 N (c) Fy = 326 N
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- 7-25. Determine the internal normal force, shear force, and the moment at points C and D. A 2 m 2 kN/m 6 m 45° B D 3 m 3 m - Prob. 7-25A 10 m long uniform board weighing 400 N is supported by ropes at each end. A worker weighing 900 N stands 3.0 m from the rope on the left. Determine the tension in the two ropes for static equilibrium.Modelled after problem 5 in the Problems_Torque_Statics: A 12.83-m-high and 19.48-m-long wall under construction and its bracing are shown in the figure. The wall is in stable equilibrium without the bracing but can pivot at its base. Calculate the force exerted by each of the 10 braces if a strong wind exerts a horizontal force of 871.28 N on each square meter of the wall. Assume that the net force from the wind acts at a height halfway up the wall and that all braces exert equal forces parallel to their lengths. Neglect the thickness of the wall. The angle between the braces and the wall is as shown in the figure as 35 degrees.
- A uniform, 8.00 m, 1150kg beam is hinged to a wall and supported by a thin cable attached to a 2.00 m from the free end of the beam as shown. Find the tension in the thin cable. Do not forget the force of gravity on the beam. b) How hard does the beam push inward on the wall? what is the horizontal force on the beam from the wall?A uniform rod AB of weight 500 N and length 4.0 m is supported at two points P and Q as shown below. AP = QB = 0.80 m. A man of weight 800 N is walking from Q to B. Find the maximum %3D %3D distance x from Q the man can walk before the rod topples about Q. P Q A 1 -| × |- O 0.4 m O 0.8 m O 0.75 m O 0.6 mOne end of a uniform rod of weight w = 74.0 N and length L = 2.85 m is supported by a cable at an angle of 0 = 34.0° above the rod. The other end rests on a small frictionless support and presses into a wall as shown in the figure. -Support -L- Determine the magnitude n of the vertical normal force exerted by the support on the rod and find the magnitude T of the tension in the cable. n = T =
- Chapter 12, Problem 028 GO In the figure, suppose the length L of the uniform bar is 2.7 m and its weight is 220 N. Also, let the block's weight W = 280 N and the angle 0 = 27°. The wire can withstand a maximum tension of 440 N. (a) What is the maximum possible distance x before the wire breaks? With the block placed at this maximum x, what are the (b) horizontal and (c) vertical components of the force on the bar from the hinge at A? com A (a) Number Units (b) Number Units (c) Number Units Click if you would like to Show Work for this question: Open Show WorkIn the figure, a uniform plank, with a length L and a weight of W, rests on the ground and against a frictionless roller at the top of a wall of height h. The plank remains in equilibrium for any value of 000 or more, but slips if = 000. Find the coefficient of static friction between the plank and the ground. NOTE: Give your answer in terms of the variables given. flg = L 0 Roller hThe 600-kg uniform I-beam supports the load shown. Determine the reactions at the supports. Answers: Ax Ay = = By = p -7.5 m- +4.5 m 285 kg N N N B
- The beam is made of an elastic-plastic material for which σYσYsigma_Y = 70 MPaMPa . The largest moment in the beam occurs within the center section a-a. Determine the magnitude of each force PP that causes this moment to be the largest elastic moment. Determine the magnitude of each force PP that causes this moment to be the largest plastic moment.Structural member AB is to be supported by a strut CD. Determine the smallest length CD may have, and specify where D must be located for a strut of this length to be used. Take x= 120 mm. 60 mm D. y 20 mm E The smallest length CD may have is mm. The coordinates of point Dare ( and Imm.is located at point G. determine the tension developed in Probs. 3-1/2 the mass of the girder is 3 Mg and its center of mass 3-7 50 the cables AB. BC, and BD for equilibrium. . If cables BD and BC can withstand a maximum tensile force of 20 kN. determine the maximum mass of the girder that can be suspended from cable AB so that neither cable will fail. The center of mass of the girder is located at CO point G. 30