Not necessarily. If it's rolling in a straight line on a smooth and level floor, then
the acceleration is as good as zero.
But if the ball is rolling up a hill, or down a hill, or around the groove in a roulette wheel,
or through grass and slowing down, then there's substantial acceleration.
If they are both solid, and the incline is the same, the rate of acceleration will be the same.
It is an example of inertia.
An example would be a ball rolling down a hill. The ball rolling down would show motion.
The answer will depend on the shape of the slope, and the trajectory that the ball follows.
long enough
newton's 1st law
The acceleration of a tennis ball rolling down an incline depends with two factors. The force that is applied to the tennis ball and the mass of the tennis ball will determine its acceleration.
if you increase the force , the mass remaining constant, a new rate of acceleration applies in the order a = f/m from that point (second law)
If they are both solid, and the incline is the same, the rate of acceleration will be the same.
If they are both solid, and the incline is the same, the rate of acceleration will be the same.
It is an example of inertia.
An example would be a ball rolling down a hill. The ball rolling down would show motion.
A Rolling ball
The answer will depend on the shape of the slope, and the trajectory that the ball follows.
Rolling (motion) is an example of Kinetic Energy.
It is an example of momentum (sometimes called "inertia"). Velocity x mass. The bowling ball is much, much heavier. With both rolling at the same speed, the bowling ball is harder to stop because it has much more mass.
kinetic