Bowling ball and force of friction

AI Thread Summary
A bowling ball with radius R and mass m travels a distance d before it begins to roll due to friction, which is influenced by the coefficient of friction (mu) between the ball and the lane. Initially, the ball is translating, but as it moves, friction causes it to spin, leading to a change in speed and angular velocity. The transition to pure rolling occurs when the conditions for rolling without slipping are met, at which point friction no longer acts on the ball. The equations of motion for translation and rotation are essential to express the distance d in terms of R, m, v, and mu. Understanding this relationship is crucial for solving the problem effectively.
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Homework Statement


A bowling ball with radius (R) and mass (m)hit the ground and traveled a distance (d) before it started to roll due to the force of friction cause by the coefficient of friction (mu) between the ball and the lane.

Homework Equations


I=2/5mR^2
F=ma
torque=I*alpha
F(friction)=mu*F
v=w*alpha

The Attempt at a Solution


Express the distance d in term of R, m, v and mu.
 
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I suppose it is important that you know whether the ball as spinning or translating initially.
 
initially the ball was as translating but after traveled distance (d) it change to spinning due to the friction with the lane
 
Then write the translation and rotation equations. The speed reduces and angular velocity increases to the point that they satisfy the condition for pure rolling. As soon as this is achieved friction ceases to act.
 

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