A cue ball, of mass m and radius R, is struck horizontally by the cue stick through the horizontal diameter as shown. The cue ball has initial linear velocity Vemi and slides down the table with no rotation. Friction is present, and the coefficients of kinetic and static friction are known. The ball continues sliding, but at some time later, begins to roll with out slipping. Find the Vemf in terms of Vemi- Recall that the moment of inertia for a solid sphere is Icm =, mR?. ROLLS WITHDUT SLIPPING EVENTUALLY W;=0 Ws Ven-s CM- mass m |NTIALLY LATER

A cue ball, of mass m and radius R, is struck horizontally by the cue stick through the horizontal diameter as shown. The cue ball has initial linear velocity Vemi and slides down the table with no rotation. Friction is present, and the coefficients of kinetic and static friction are known. The ball continues sliding, but at some time later, begins to roll with out slipping. Find the Vemf in terms of Vemi- Recall that the moment of inertia for a solid sphere is Icm =, mR?. ROLLS WITHDUT SLIPPING EVENTUALLY W;=0 Ws Ven-s CM- mass m |NTIALLY LATER

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Question

Can you show me the full work including what equation you used?

175%
+
1 / 1
initial linear velocity Vcmi and slides down the table with no rotation. Friction is present, and the coefficients of kinetic and static
friction are known. The ball continues sliding, but at some time later, begins to roll with out slipping. Find the Vemf in terms of Vemi-
Recall that the moment of inertia for a solid sphere is ICM
A cue ball, of mass m and radius R, is struck horizontally by the cue stick through the horizontal diameter as shown. The cue ball has
2 mR².
ROLLS
SLIPPING EVENTUALLY
WITHDUT
W;=0
Feve
R
Vcn-f
mass m
LATER
INTIALLY
II

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