Rolling the ball would be work and stopping the ball would be force.
it experiences friction between the ball and the floor, which causes a force opposing its motion. This force gradually dissipates the ball's kinetic energy, eventually bringing it to a stop.
When it stops it stops. Inertia will stop it from moving unless there is some force acting on it.
It will not, unless it is acted upon another force. If it's rolling on something, then friction will stop it (the ball rubbing on the table slows it down).
The rolling ball has kinetic energy while moving off the table and bouncing on the floor, which is then being gradually converted into other forms of energy, such as sound, thermal energy, and potential energy as it comes to a stop.
This is an example of inertia. The rolling ball has more mass, so it has greater inertia than the ping pong ball. This means it requires more force to stop the rolling ball compared to the ping pong ball at the same velocity.
put your hand there to stop it.
The main force that causes the soccer ball to stop rolling is friction between the ball and the grass surface it is rolling on. As the ball moves, the grass exerts a force in the opposite direction of the ball's motion, gradually slowing it down until it comes to a stop.
Any amount of force can stop either kind of ball. But a greater force is required to stop a bowling ball than to stop a soccer ball IN THE SAME TIME, because the bowling ball has more mass, and therefore more momentum and more kinetic energy.
The ball slows down and stops due to the force of friction acting in the opposite direction of its motion. As the ball rolls, friction between the ball and the floor converts some of its kinetic energy into heat, causing it to lose speed. Without an external force to maintain its motion, such as continual pushing, the ball will eventually come to a stop due to this frictional force.
Friction is the force that would stop a ball from rolling. As the ball interacts with the surface it is rolling on, friction counteracts the motion by creating resistance. The type of surface and the smoothness of the ball will influence the amount of friction and, therefore, the stopping force.
Friction