The ball is a solid sphere of radius 4.0cm and mass 0.14kg. the half-pipe has one side with sufficient static friction that we can assume no sliding will occur there. The ball is released from rest at a height of 0.77m above the bottom of the half-pipe on the no-slip side. What is its angular speed when it is on the frictionless side of the track? How high does it rise on the frictionless side? a.) Describe what physics Law or Laws you will use to solve each part of the problem. b.) Set up and solve for the first question. Find the angular velocity of the ball when it is on the frictionless side. c.) Set up and solve for the second question. Find the maximum height reached by the ball on the frictionless side.

The ball is a solid sphere of radius 4.0cm and mass 0.14kg. the half-pipe has one side with sufficient static friction that we can assume no sliding will occur there. The ball is released from rest at a height of 0.77m above the bottom of the half-pipe on the no-slip side. What is its angular speed when it is on the frictionless side of the track? How high does it rise on the frictionless side? a.) Describe what physics Law or Laws you will use to solve each part of the problem. b.) Set up and solve for the first question. Find the angular velocity of the ball when it is on the frictionless side. c.) Set up and solve for the second question. Find the maximum height reached by the ball on the frictionless side.

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Question

a.) Describe what physics Law or Laws you will use to solve each part of the problem.

b.) Set up and solve for the first question. Find the angular velocity of the ball when it is on the frictionless side.

c.) Set up and solve for the second question. Find the maximum height reached by the ball on the frictionless side.

Definition Definition Rate of change of angular displacement. Angular velocity indicates how fast an object is rotating. It is a vector quantity and has both magnitude and direction. The magnitude of angular velocity is represented by the length of the vector and the direction of angular velocity is represented by the right-hand thumb rule. It is generally represented by ω.

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