4. A ball with a mass of 2 kg is attached to a string and is rotated in a vertical circle with a radius of 0.5 meters and a constant speed of 4 m/s. Find the force of tension in the string when the ball is (a) at the top and (b) at the bottom of the circular rotation. Draw free-body diagrams of the ball in each case and use Newton's Second Law to calculate this. (a) Ball at the top: m (b) Ball at the bottom: m
4. A ball with a mass of 2 kg is attached to a string and is rotated in a vertical circle with a radius of 0.5 meters and a constant speed of 4 m/s. Find the force of tension in the string when the ball is (a) at the top and (b) at the bottom of the circular rotation. Draw free-body diagrams of the ball in each case and use Newton's Second Law to calculate this. (a) Ball at the top: m (b) Ball at the bottom: m
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![4. A ball with a mass of 2 kg is attached to a string and is rotated in a vertical circle with a radius of
0.5 meters and a constant speed of 4 m/s. Find the force of tension in the string when the ball is (a)
at the top and (b) at the bottom of the circular rotation. Draw free-body diagrams of the ball in each
case and use Newton's Second Law to calculate this.
(a) Ball at the top:
m
(b) Ball at the bottom:
m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F87586995-564b-4afd-9feb-70b824d8e402%2Fcd6ad40e-e869-43ee-b0d6-c9b9421805ce%2Fg8ekadwi_processed.png&w=3840&q=75)
Transcribed Image Text:4. A ball with a mass of 2 kg is attached to a string and is rotated in a vertical circle with a radius of
0.5 meters and a constant speed of 4 m/s. Find the force of tension in the string when the ball is (a)
at the top and (b) at the bottom of the circular rotation. Draw free-body diagrams of the ball in each
case and use Newton's Second Law to calculate this.
(a) Ball at the top:
m
(b) Ball at the bottom:
m
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