Determine the magnitudes of the force R and couple M exerted by the nut and bolt...
Replace the given loads with an equivalent force-couple system at O by specifying the resultant R and couple Mo. Next, determine the equation for the line of action of the stand-alone resultant force R. 1.1 m 0.30 m J001 0.7 /5.4 kN / m m1.6 m 75 14 kN-m 10.7 kN 7.0 kN0.30 m Answers: Equivalent force-couple system at O R = 8.79 +2.355 kN Mo =T 19.1502 KN·m The equation for the line of action of the stand-alone resultant...
The figure below depicts the cantilever beam. Determine the magnitudes of bending moment (M) in kNm, axial stress() in kN/m2, and shear force (V) in kN acting at point A. The equation for finding the axial stress is = Axial load / cross-section area. Cable XX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXI BT Beam (0.2 m × 0.2 m) Frictionless Pulley 3 m 50 kN Select one: a Bending moment (M) = 150 kNm, Shear force = 50 kN and axial stress = 1250 kN/m2...
A beam is subjected to a force P=9.8 kN and a couple M=5.1 kNm as shown below. Assume the force and the couple acts in the same plane. Determine the vertical reaction at A (in kN). Sign: Upward positive P B M 4m 3 m
A beam is subjected to a force P=9.8 kN and a couple M=5.1 kNm as shown below. Assume the force and the couple acts in the same plane. Determine the vertical reaction at B (in kN). Sign: Upward positive P B M 4 m 3 m
Determine the magnitudes of FA and FB so that the resultant force passes through point O of the column. Suppose that a = 150 mm , b = 180 mm , c = 550 mm , and d = 800 mm . Determine the magnitudes of FA and F so that the resultant force passes through point O of the column. Suppose that a 150 mm , b = 180 mm ,c = 550 mm , and d 800 mm...
Question 1 Replace the system of two forces and one couple by a wrench. Determine the magnitude of the moment M of the wrench, the magnitude of the force R of the wrench, and the coordinates of the point in the x y plane through which the wrench passes. 35 kNm 1.5 m 1.5 m 49 KN 1.5 m 1.5 in 9 KN 4.0 m A Answers: kN.m KN (x,x) = ו |
Determine the moments of force about O, in N-m], for the following cases a) r 130 mm], F=120 [N], 0=45°; b) r 0.2 [m], F=-80 [N], 0=115°; A r 27 [cm], F-(40î, 35) [kN]; A c) r-1 [m], F=5 [kN], 0=0°; d) e) r-0.5 m], F-15 [N, 0-180°.
Problem 1 The rigid structure shown in the figure below is loaded with a concentric couple applied at H of 75 kNm and a concentric horizontal force of 40 kN. A distributed load spans from point D through E with minimum amplitude of 10 kN/m and a maximum of 30 kN/m, respectively. The structure is externally supported by a roller at A, the cable BC and a pin at G. Please do the following: 1. Draw a neat Free Body...
3. A 0.8-m-diameter pipe is supported every 5 m by a small frame like that shown. Knowing that the combined weight of the pipe and its contents is 2 kN/m and assuming frictionless surfaces, determine the components (a) of the reaction at A, (b) of the force exerted at C on member CDE. r=0.4m h= 3 m Zm 5. A semicircular rod is loaded as shown. Determine the internal forces at point J. 200 mm 200 mm 8 KN =...
Replace the system of two forces and one couple by a wrench. Determine the magnitude of the moment M of the wrench, the magnitude of the force R of the wrench, and the coordinates of the point P in the x-y plane through which the wrench passes. 27 kN.m 1.7 m 1.7 m 30 KN 1.7 m 1.7 m 31 KN 4.0 m A Answers: M= kN.m R= KN (x,y) = E