A grindstone of mass M-34 kg and radius 0.46 m starts from rest and experiences a constant angular acceleration, a, of 0.3 rad/s². (A) Find the angular displacement (0) in radians 02.37 01.09 0.726 0.632 1.53 0.283 (B) Find the angular speed (m) (in rad/s) 1.390.257 2.15 0.574 0.660 0.990 (C) Find the distance traveled in meters of a point on the rim of the grindstone (after 2.2 sec). 0.334 0.130 -0.501 0.705 1.090.291

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Here are some useful formulas for the following questions: v² a₁ = aR v=R or @= ΣΕ, = ma, 0=0+1+-at R Fy=ma, 1 ¹+² a Στ= Ια @= @₂ + at R +=(@+ a)! o²=a+2a(0-0) 0=0, +(+a)! A grindstone of mass M-34 kg and radius 0.46 m starts from rest and experiences a constant angular acceleration, a, of 0.3 rad/s². (A) Find the angular displacement (0) in radians 02.37 01.09 0.726 0.632 1.53 0.283 (B) Find the angular speed (c) (in rad/s) (1.39 0.257 2.15 0.574 0.660 0.990 (C)Find the distance traveled in meters of a point on the rim of the grindstone (after 2.2 sec). (0.130 0.501 0.705 1.09 0.291 0.334 (D) Find the speed, v (in m/s), of a point on the rim (after 2.2 sec.). 0.264 0.990 0.641 0.455 0.118 0.304 (E) Find the tangential acceleration (in m/s²of a point on the rim (after 2.2 sec.) (0.138 0.291 0.450 0.0538 0120 0.207 (F)Find the centripetal acceleration (in m/s2 on the rim (after 2.2 sec) 0.174 0.200 0.653 0.301 0.423 0.0781 IMR2/2, find the torque (in Nm) necessary for it to have the given angular acce