This is an example of momentum, which is a product of the object's mass and its velocity.
It is also harder to start a Bowling ball rolling than a ping-pong ball due to inertia, which is related only to the object's mass.
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.
This is an example of inertia, specifically the difference in inertia between the two objects due to their mass. The bowling ball has more mass, so it has more inertia and requires more force to stop its motion compared to the ping pong ball.
Rolling in the isles
no just a online version. http://dailybiz.wordpress.com/2008/03/10/rolling-rock-is-advertising-on-the-moon/
From the information provided it is impossible to answer the question. You require the velocity or speed of the ball and that is not measured in milliseconds - which a measure of time!
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.
Rolling rolling your pitcher going bowling x2
Anything with wheels, such as a car, would be an example of use of rolling kinetic friction.
The bowling ball has more momentum because momentum is directly proportional to an object's mass and velocity. Since the two balls are moving at the same speed, the greater mass of the bowling ball results in it having more momentum.
Driving a car down the street is a source of friction. Rolling a bowling ball down the lane is also an example of friction.
"Rolling in the isles"
it has momentum due to its mass and velocity. The rolling motion creates kinetic energy that makes it difficult to slow down or stop abruptly. friction between the ball and the surface also plays a role in resisting its motion.