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Determine the x and y of the forces
1. Resultants of force systems (10 pts) Determine the x and y components of the three forces F1, F2 and F3. Also, determine the magnitude and direction of the resultant force. Solve the problem by filling the table below. Indicate force direction with positive/negative sign. Fz=100 N F=100N N x component (N) y component (N) 45° ST F3=200 N Resultant force
8- 23 Stress analysis B Radius c Resultants Axial force F Shear force F at B, Shear Force Fz at B. Stress component(s)Stress component(s) at B ; at A: ; at A: ; at A: ; at A: at A: at A at B at B At B, At B; Moment M a Moment M, At B,j Torque-M.. Table( for future) 'at A: ; at A: at A Use Cartesian coordinates; stress should have subscripts.
A couple of magnitude M = 54 lb. in and the three forces shown are applied to an angle bracket.(a) Find the equivalent force-couple system (resultant force-couple) located at Point B.(b) Determine the resultant force couple located at Point C.(c) Determine locations, (x,y), where the resultant force-couple system consists only the net force but no resultant moment, i.e = Moment R = 0. Please definecoordinates first.
For the three force system shown, calculate:
For the three force system shown, calculate: 1 F2 30 45° 3 COLLAPSE IMAGES F, 281 lb F 85 lb The magnitude of F2 such that the sum of F, F2, and Fs in the x direction is zero. 217.150 1 tries remaining 50 pointfs) possible b ENTER The direction of the resultant force FR deg ENTER 2 tries remaining. 50 pointis) possible
Is it possible to force a system into the unstable equilibrium? Specifically in a system of hysteresis, in the real world is it possible to force a system into an unstable equilibrium, or will it continually jump between stable points despite forcing the natural system?
44135. Replace the force system by a wrench and specify the magnitude of the force and couple moment of the wrench and the point where the wrench intersects the x-z plane. 200 N 400 N 0.5 m 200 N 3 m - 2 m 125
Replace the force system acting on the post by a resultant force and couple moment at point . Take Fi = 310 lb and F2 = 210 lb (Figure 1) 1 of Figure Copyright 201
Represent the resultant of the force system acting on the pipe assembly by a single force R at A and a couple M. 2 160 N L-375 mm 55 N.m 230 mm 160 N 105 N 200 N 200 N 205 mm 150 mm 2 190 mm Answers k) N Mo k) N·m