F3-25. Replace the loading system by an equivalent resultant force and couple moment acting at point A. 100 N 04 m -200 N -03 m -03m 150 N
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A: Resultant forceFr=∫04w dx=∫042.5 x3dx=2.5 x44∫04 Fr=2.5444-04 Fr=160 N
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A: F1=130 N F2=190 N Mc=75 N-M Mc→=-75 i⏞ A =0i⏞+.5j⏞+.3k⏞ B=-.4i⏞+.5j⏞+0k⏞ F1=-130j⏞ F2=|F2|.UAB…
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- Determine the required magnitude of F1, F2, and F3 so that the resultant couple moment is (Mc)R = [50i - 45j - 20k] N ⋅ m.Replace the force and couple moment system acting on the beam by an equivalent resultant force, and find where its line of action intersects the beam, measured from point O. Set F1= 7 kN, F2= 20 kN and M= 16 kN.mDetermine the couple moment acting on the beam show.
- Replace the loading system by an equivlanet reusltant force and couple moment acting at point A.117 The right-angle pipe OAB of Prob. 2/99 is shown again here. Replace the 750-N tensile force which the cable exerts on point B by a force-couple system at point O. Ans. R --5981 + 411j + 189.5k N Mo = -361i - 718j + 419k N m 1.2 m C 1.6 m 0.7 m 30 0.8 m Problem 2/117 2/118 In an afteDetermine the smallest force F that must be applied along the rope in order to cause the curved rod to fail at the support A. This requires a moment of M = 1700 N⋅m to be developed at A.
- M. Replace the force system acting on the beam by an equivalent force and couple moment at point B.d= 3.8m (on the figure of the beam) Determine the equivalent resultant force and determine the equivalent couple moment at point O.Determine the moment of a force F=(0.5i-2.0j+7.0k) kN acting at A(5, -4, 0)m about axis BC where B (6,8,4)m and C (-6, -5,8)m. Also express the result in vector form. What is the prependicular distance between F and the axis BC?