Answer:
1 ) Distribution of mass within the ball
2 ) Height of the ramp
Explanation:
Acceleration of a rolling body down an inclined plane is given by the following formula
a = g sinθ / ( 1 + k² / R² )
k is radius of gyration , R is radius of the spherical object ,
when acceleration is more , velocity will also be more .
for objects in which masses are lying in the periphery like in hollow sphere , the value of k²/R² will be high so denominator of the expression will be high so acceleration will be less , hence velocity on reaching the bottom will be less.
On mass of the ball , velocity will not depend .
If height is increased , ball will have acceleration for greater time so velocity will be high.
On radius it will not depend because , radius r and k increases proportionately.
The quantities in which the speed of each ball at the bottom of the ramp
depend include the following:
Speed is defined as the rate of change of position with time. Speed is
affected by the distribution of mass within the ball such that when
concentrated at the center it moves faster.
The height is also a determinant factor as higher heights means higher
speed and vice versa.
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