The crank of the slider-crank mechanism, shown in the figure, has an instantaneous angular velocity of 10 rad/s clockwise and an angular acceleration of 200 rad/s clockwise. Information related to acceleration is given in the figure.The connecting rod has a mass of 15 kg and a mass moment of inertia of about its center of mass, G2. The slider has a mass of 8 kg. The crank has a moment of inertia of 4000 kg.mm? about its stationary center of mass, Determine all bearing forces and the input torque T, for the position shown. 30° G2 39.The magnitude of the inertia force of link 2 is a) 57.2 N b) 78.1 N c) 45.3 N 60 + 30° C, G 0.G, O 'L. 10 mm 40. The magnitude of the inertia torque of link 2 is OB BC - 90 mm 30 mm 3810 2325"mm/s 66,3 rad/s cew 5800 20" mm/s aa, a) 0.97 N.m b) 0.81 N.m %3! c) 0.5 N.m 41. The direction of the inertia torque of link 2 is а) CW b) CCW

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The crank of the slider-crank mechanism, shown in the figure, has an instantaneous angular velocity of 10 rad/s clockwise and an angular acceleration of 200 rad/s? clockwise. Information related to acceleration is given in the figure.The connecting rod has a mass of 15 kg and a mass moment of inertia of about its center of mass, G2. The slider has a mass of 8 kg. The crank has a moment of inertia of 4000 kg.mm? about its stationary center of mass, Determine all bearing forces and the input torque T, for the position shown. 30° G2 39.The magnitude of the inertia force of link 2 is a) 57.2 N 60 b) 78.1 N 0,G, 9 30° C, G c) 45.3 N 10 mm 40. The magnitude of the OB 30 mm 90 mm aG, = 3810 2325 mm/s 66,3 rad's cew 5800 20° mm/s? BC inertia torque of link 2 is a) 0.97 N.m %3D b) 0.81 N.m c) 0.5 N.m 41. The direction of the inertia torque of link 2 is а) CW b) CCW