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If the magnitude of the resultant force is to be 9 kN directed along the positive x axis, determine the magnitude of the force

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If the magnitude of the resultant force is to be 9 kN directed along the positive x axis, determine the magnitude of the force T (in kN) acting on the eyebolt. to y T 45 X 8 kN Determine the magnitude of the y-component of the reaction force at pin A (in kN). The beam AB is a standard 0.5 m I-beam with a mass of 95 kg per meter of length. A 0.25 m 0.5 m 25 1.5 m 0.12 m 10 kN 5 m B Determine the magnitude T (in kN) of the tension in the supporting cable. The beam AB is a standard 0.5 m l- beam with a mass of 95 kg per meter of length. 0.25 m 25 B 0.5 m 1.5 m 0.12 m 10 kN 5 m Calculate the tension T (in kN) in the cable which supports the 500-kg mass with the pulley arrangement shown. Each pulley is free to rotate about its bearing, and the weights of all parts are small compared with the load. 500 kg A T 0 = 30 B If the magnitude of the resultant force is to be 9 kN directed along the positive x axis, determine angle (degrees). to y T 45 -X 8 kN In order to raise the lamp post from the position shown, the force F on the cable must create a counterclockwise moment of 1500 lb-ft about point A. Determine the magnitude of F (in lbs.) that must be applied to the cable. -10 ft- B 20 ft In order to raise the lamp post from the position shown, the force F on the cable must create a counterclockwise moment of 1500 lb-ft about point A. Determine the magnitude of the x-component of F (in lbs.) that must be applied to the cable. -10 ft- B 75 20 ft In order to raise the lamp post from the position shown, the force F on the cable must create a counterclockwise moment of 1500 lb-ft about point A. Determine the magnitude of the y-component of F (in lbs.) that must be applied to the cable. -10 ft- B 75 20 ft Specify the line of action where the resultant of the three forces intersects the post AB measured from point A with respect to the y-axis. Please input the distance (in meters) only. 500 N B 0.5 m 1 m 1 m 1 m 30 A 250 N 0.2 m 300 N Determine the magnitude of the resultant force R (in N) to replace the force system in the given figure. B. 0.5 m 500 N 250 N 1 m 0.2 m 30 1 m 1 m A 300 N Compute for the magnitude of the combined moment (in N-m) of the three forces indicated in the figure with point B as the reference point. B 0.5 m 500 N 250 N 1 m 0.2 m 1 m 1 m 30 A 300 N Determine the magnitude of the x-component of the reaction force at pin A (in kN). The beam AB is a standard 0.5 m I-beam with a mass of 95 kg per meter of length. 0.25 m A 25 B 0.5 m 0.12 m 10 kN 5 m 1.5 m

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