A 540-N force F acts at the end of a cable-supported bar as shown. a. Use...
750 N 1) What is the angle between r, and the 750 N force that you would use if you were to calculate the moment that the force creates about point C? (You do not need to actually calculate the moment.) 200 mm - 100 mm 2) Bar AB is inclined at 50 from the vertical. A 100-N force is applied to the bar at end B. Determine the magnitude and direction of the moment this force creates at a...
2.87 Problems55 the magnitsde and direction of the force F 2.81 A force acts at the origin of a coordinate system in a direction l by the angles 869.3 and e 57.9. Knowing that the y compo- nent of the force is -174.0 lb, determine (a) the angle ,, (b) the o components and the magnitude of the foree. 2.82 A force acts at the origin of a coordinate system in a direction defined by the angles &-70.9 and &-144.9....
A bar AB weighing 836 N is supported by a post (CD) and a cable as shown. The post weighs 316 N. Assume that all surfaces are smooth. Determine the tension in the cable and the forces acting on the bar at the contacting surfaces if the bar is in equilibrium. Л bar ЛВ eighing 836 N is supported by a post CD and a cable as shown. The post weighs 316 N Assume that oll surfaces are smooth Determine...
please help me with these Force 1,560 N acts from A towards B m (The line of action for does not pass through O. That illusion occurs due to the isometric drawing, Express your answer in Determine the moment of the force about point in N vector form.) Determine the shortest distance from point to the line of action of the force in mm Force F = 658 lb acts from A towards B. Determine the moments of the force...
A crate is supported by three cables as shown. If tension in cable AC (force C) is 500+ xx N, where xx is the last two digits of your ID. Determine the tension developed in cable AB (force B) and tension in cable AD (force D) and the weight of the crate W at point A (force W). If your student ID is 60-xxxxxx-xxx1-2, C = 500 + 12 = 512 N. В. 36 cm 40 cm 32 cm 27...
Q2) The force F acts on the end of the pipe at B. Determine (a) the moment of this force about point A, and (b) the magnitude and direction of a horizontal force, applied at C, which produces the same moment. 6 mat 70 N 0.7 m
+ -/30 points NorEngStatics 1 4.P.031. Force F = 1,545 N acts from A towards B, as shown. 275 mm FV 550 mm 220 mm Determine the magnitudes of the moments of force F about the following lines in N. m. (a) oc Nom (b) OD Nom (c) CD (d) BC N·m (e) DE DNm (f) DF N·m (g) FG DN.m
1) Force F =(-8.00 N){+(6.00 N) j acts on a particle with position vector r = (3.00 m)i +(4.00 m)j. What are (a) the torque on the particle about the origin, in unit-vector notation, and (b) the angle between the directions of r and F?
Problem X4-2, MECH 3035, Spring 2019 Vertical force P= 250 Ib acts on end B of the L-shaped solid round bar as shown in the figure. The front view lies in the x-y plane as shown, and the top view lies in the x-z plane. The diameter of the bar is 2.00 in. Point A is on the top of the bar. a) Find the bending moment and torsion acting on the bar at the cross section where point A is located....
A particle moves through an xyz coordinate system while a force acts on the particle. When the particle has the position vector r = (2.00 m) - (3.00 m) + (2.00 m) , the force is F = Fx + (7.00 N) - (6.00 N) , and the corresponding torque about the origin is T = (4.00 N·m) + (10.0 N·m) + (11.0 N·m) . Determine Fx. We were unable to transcribe this imageWe were unable to transcribe this imageWe...