3-109. Replace the distributed loading by an equivalent resultant force, and specify its location on the beam, measured from the pin at A. 4 kN/m 2 kN/m -3m
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- The cylinder has a mass of 30 kg and is mounted on an axle that is supported by bearings at A and B. If the axle is turning at 40 rad/s (direction see figure) determine the vertical components of force acting at the bearings at this instantFind the minimum force P required for impending motion of the block up the inclined surface, given: Mblock = 65 kg, θ = 52 °, μ = 0.4Replace the distributed loading with an equivalent resultant force, and specify its location on the beam measured from point A if the distributed load peaks at 6.4 kN/m above point B and drops to 3.1 kN/m at the end of the beam.
- The building slab is subjected to four parallel column loadings. Determine F1 and F2 if the resultant force acts through point (12 m, 10 m).The force system acting on the machine part is equivalent to the single force R=80i + 20jlb acting at O. Determine the force P and the distance b.*Take that w1 = 890 lb/ft and w2 = 470 lb/ft .* Pt. A : Replace the loading by an equivalent resultant force and determine its magnitude. Pt. B : Specify the location of FR on the beam, measured from point B.
- The 150-lb man sits in the center of the boat, which has a uniform width and a weight per linear foot of 3 lb>ft. Determine the maximum internal bending moment. Assume that the water exerts a uniform distributed load upward on the bottom of the boat.The two main cables of the Akashi Kaikyo suspension bridge in Japan have a span L=1990m and a sag H=223m. The loading on each cable is w0=444.7kN/m (without traffic) along the horizontal. Determine the corresponding maximum force in one of the cables.The engine crane is used to support the engine, which has a weight of 6 kN. Draw the shear and moment diagrams of the boom ABC when it is in the horizontal position shown.