The forces F1, F2, and F3, all of which act on point A of the bracket. Determine the F1 and the angle e for which the bracket will be under a resultant force of 150 N on the positive y-axis. * y F2 = 80 N F1 3 4 F3 = 60N e
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- SAQ 1 1.2 m D C An 80-kn'm couple shown in the plate is caused by a pair of parallel forces of magnitude F (not shown). Determine: 80 kN m a) the smallest possible value of F, and 1.6 m b) the value of F if the forces act at points A and C and are parallel to the dashed line shown at A. A В 60°A 422 N was applied to a 273 kg block, find the normal force if the angle 0 = 66.1 degrees. F Select one: Oa 2849.0997 N Ob. 2507.1603 N Oc. 2292.3148 N Od 2678.1300 NFind the resultant of force Y 390 Ib MATHalino.com 12 30 1 1 300 lb 722 Ib Figure P-265
- The forces are in static equilibrium. The 140 lb force is directed along the x-axis and the 300 lb force is directed along the negative z- axis. Determine the magnitude of the unknown force, R. Z X R Ox лог 140lb A (-50, 80, 160) lb By 300 lb уIf the resultant force acting on the bracket is to be 750 N directed akong the positive x axis, determine the magnitude of Fand its direction e. 325 N 112 600N Determine the magnitude of the resultant force acting on the plate and its direction, measured counter- clockwise from the positive t axis.SAQ 1 1.2 m D C 80 kN m An 80-kn.m couple shown in the plate is caused by a pair of parallel forces of magnitude F (not shown). 1.6 m Determine: a) the smallest possible value of F, and b) the value of F if the forces act at points A and C and are parallel to the dashed line shown at A. A В 60°
- If the resultant force acting on the bracket is to be Determine the magnitude and direction of the 750 N directed along the positive x axis, determine the magnitude of F and its direction e. resultant force. 250 N 400 N 325 N 300 N 600 N Determine the magnitude of the resultant force If the magnitude of the resultant force acting on acting on the plate and its direction, measured counter- clockwise from the positive x axis. the bracket is to be 80 lb directed along the u axis, determine the magnitude of F and its direction 6. F,= 650 N F= 750 N 50 Ib F = 900 N 90 Ib If F - 30 lb and F, - 40 lb, determine the angles e ana o so that the resultant force is directed along the positive x axis and has a magnitude of F-60 lb. Determine the magnitude of the resultant force and its direction, measured counterclockwise from the positive x axis. F, = 8 kN F, = 5 kN 60 F = 4 kNThe leg and cast in the figure weigh 220 N (w;). Determine the weight wz and the angle alpha needed so that no force is exerted on the hip joint by the leg plus the cast. 110 NQUESTION 16 Five forces; Fi, Fa, Fa, Fa and Fs are applied to point O. The Fi = 40 N 30 R- 60N force F2 which acts along aa, and Fs are not shown. F= 30 N a. Find the magnitude of F2 and the angle e it Ri is the 10 resultant of Fi and F2. 45 Rr = 100 N Fa= 50 N b. Find Fs if Rr is the resultant for F1, Fa. Fs, Fa and Fs. 20
- 16. ao The drawing shows a rectangular piece of wood. The forces applied to corners B and D have the same magnitude of 12 N and are directed parallel to the long and short sides of the rectangle. The long side of the rectangle is twice as long as the short side. An axis of ro- tation is shown perpendicular to the plane of the rectangle at its center. A third force (not shown in the drawing) is applied to cor- ner A, directed along the short side of the rectangle (either toward B or away from B), such that the piece of wood is at equilib- rium. Find the magnitude and direction of the force applied to corner A. A D Axis Problem 16ourses This course ion 1 The 10-kg pipe is supported at A by a system of five cords. Determine the force in the cable AB for equilibrium: et ered d out of on 60° Select one: O a. T(AB) = 226.56 N O b. T(AB) = 113.28 N O c. T(AB) = 593.83 N O d. None of these cht W nf the block, shown in the following figure, so that the tension developed in anThe pipe AB is subjected to a 10 N force as shown. Determine the magnitudes of the components of this force parallel and perpendicular to the pipe AB.