find the acceleration formula of this system by finding translational and rotational motion formulas in polar coordinates for the pulley
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- Refer to the question below.A 3.00-kg stone is tied to a thin, light wire wrapped around the outer edge of the uniform 8.00-kg cylindrical pulley. The inner diameter of the pulley is 55.0 cm, while the outer diameter is 1.00 m. The system is released from rest, and there is no friction at the axle of the pulley. a) Find the acceleration of the stone and the tension of the wire. b) Find the angular acceleration of the pulley.ANSWER ALL FOR UPVOTE. INCOMPLETE WORK NO UPVOTE. THANK YOU
- A turn table starts from 10 rad/s of angular velocity and slows down to a stop in 5.0 s. Find the total angle turned during this time, in rad. Hint: use rotational kinematics formula. Assume initial angle and final angular velocity as zero.Find the angular acceleration in the range from 4 to 6 seconds by applying the corresponding rotational kinematics equation and write the equation as a function of angular velocity with regard to the timeUnless otherwise stated, assume the density is constant
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- You are to find the angular acceleration of the seesaw when it is set in motion from the horizontal position. In all cases, assume that m1>m2 and that counterclockwise is considered the positive rotational direction.This time, the swing bar of mass mbarmbar is pivoted at a different point, as shown in the figure.Find the magnitude of the angular acceleration α of the swing bar. Be sure to use the absolute value function in your answer, since no comparison of m1m2 mbar has been made. Express your answer in terms of some or all of the quantities m1 m2 mbar and g abs(). For instance, enter abs(x*y) for |xy|.Calculate the rotational inertia of a meter stick, with mass 0.437 kg, about an axis perpendicular to the stick and located at the 43.1 cm mark. (Treat the stick as a thin rod.) Number i Units