I don't know just get me a bucket of fried chicken.
That force is called an Opposing Force.
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 resistance the ground has on the ball causes it to slow down and this force is called friction. Ice has little friction which is why the ball would have rolled further on ice for instance.
Stop the ball
the inertia
Rolling the ball would be work and stopping the ball would be force.
put your hand there to stop it.
That force is called an Opposing Force.
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).
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.
Friction
The resistance the ground has on the ball causes it to slow down and this force is called friction. Ice has little friction which is why the ball would have rolled further on ice for instance.
The conclusion that would have been reached is that an outside forced stopped the acceleration of the ball. This would have been the force of gravity.
Stop the ball
When it stops it stops. Inertia will stop it from moving unless there is some force acting on it.
the inertia
Rest position or equilibrium position occurs when all the forces (gravity, the wind, friction etc) exerted on an object are equal.For example, a rolling ball is not in equilibrium because one or more forces (gravity or the force you used to initially move the ball) are greater in strength than the friction (both between the ball and the surface it is rolling on and between the ball and the air).The ball will stop rolling when the force causing it to move 'forwards' is overcome by frictional force. The ball will then be in equilibrium, or at rest.