Energy is transferred to the pins and the deflection and contact of the pins will typically slow the ball momentum.
The pins gained the same amount of momentum that the bowling ball lost, according to the law of conservation of momentum. So, the pins gained 0.5 kg meters per second of momentum in the opposite direction to the bowling ball's initial momentum.
A heavier bowling ball can be a greater advantage in bowling because it has more momentum and energy when it hits the pins, increasing the chances of knocking down more pins with each roll.
When a falling ball hits the ground, it experiences a sudden change in momentum and kinetic energy. The impact causes the ball to bounce back up due to the conservation of energy and momentum.
when the ball(in your hand) hits the ground, then hits the lane when its released.
It is equivalent to the change in momentum of the ball.
Answer=Transferred to the pins.
When the dolphin hits the ball, the dolphin's velocity will decrease due to the impact, while the ball's velocity will increase as it gains momentum from the force of the dolphin. This follows the principle of conservation of momentum, where the total momentum of the system (dolphin and ball) remains constant.
Why would a baseball be hitting another baseball?
Yes, by means of run out only! If the bowler hits the wicket at the non-strikers end before he actually bowls the ball then it is not given out!
the red puffle likes to go bowling. I have one and i take it for walks its sometimes shots itself in a cannon and also sometimes pretends that he is a bowling ball and hits all the pins and this happens when you play with him.
No.
Since momentum equals mass times velocity, the metal ball's momentum is 2N/s (Newton seconds).