How Does Friction Affect the Transition from Sliding to Rolling in Bowling?

AI Thread Summary
Friction plays a critical role in the transition from sliding to rolling in bowling by affecting both the translational and rotational motion of the ball. Initially, the bowling ball slides without rolling, and friction slows its translational speed while increasing its rotational speed. The discussion highlights the need to account for energy loss due to friction when calculating the speed of the ball's center of mass at the point of pure rolling. The initial approach assumed energy conservation, which is incorrect since friction consumes energy. A better method involves writing separate equations for translational and rotational motion to accurately determine the conditions for rolling without slipping.
Xamfy19
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a bowling ball is given an initial speed vo on an alley such that it initially slides without rolling. The coefficient of friction between ball and alley is u.

find the speed of the ball's center of mass vCM at the time pure rolling motion occurs.

i used (1/2)mvo^2=(1/2)mVCM^2 + (1/2)Iw^2
I=(2/5)mr^2

i got vo^2=(7/5)v^2 which is wrong.

how do i solve this problem?
 
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Originally posted by Xamfy19
i used (1/2)mvo^2=(1/2)mVCM^2 + (1/2)Iw^2
I=(2/5)mr^2
It looks like you are assuming that energy is conserved. Why?
 
Well, I think the friction must have consumed certain energy too. However, I have no idea how to incorporate it into the equation.
 
There are several ways to attack this problem. Here's one way:

Picture what's happening. The ball starts with pure translational motion. The friction slows the translational motion, and starts the ball rotating. So write equations for the translational motion and for the rotational motion, due to the friction. The ball will slow down (but increase rotational speed) until the speed is just right to stop slipping.
 

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