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∙ 9y agoWhen a ball hits a wall, it experiences a force from the wall that causes it to change direction and bounce back. This force is known as the normal force, and it is equal in magnitude and opposite in direction to the force with which the ball hit the wall. This exchange of momentum results in the ball bouncing back.
When a ball hits a wall, it bounces off due to the conservation of momentum and energy. The impact of the ball hitting the wall compresses the ball's surface, storing potential energy that is then released as kinetic energy when the ball rebounds back.
When a ball is dropped, it gains kinetic energy as it falls. Upon hitting a surface, this kinetic energy is converted into elastic potential energy as the ball compresses. This potential energy is then converted back into kinetic energy as the ball bounces back up, with some energy being lost as heat and sound during the process. This cycle of energy conversion causes the ball to bounce.
The kinetic energy of a ball is transferred into potential energy when the ball compresses upon hitting the ground. When the ball bounces back up, the potential energy is converted back into kinetic energy, resulting in the bounce of the ball. The higher the initial kinetic energy, the higher the bounce of the ball.
A ball bounces higher on a hard floor compared to a rug because the floor is more rigid and provides a better surface for bouncing. The rug absorbs some of the energy from the ball, resulting in a lower bounce.
When a ball bounces, elastic potential energy is stored in the ball as it gets compressed upon hitting the ground. This potential energy is then converted into kinetic energy as the ball rebounds off the ground, causing it to bounce back up. The more elastic the ball, the higher it will bounce as it can better convert the stored potential energy back into kinetic energy.
Yes, if the ball bounces more than twice it is a no ball but if it bounces twice it is legal. Although this is a very unlikely situation.
When a ball hits a wall, it bounces off due to the conservation of momentum and energy. The impact of the ball hitting the wall compresses the ball's surface, storing potential energy that is then released as kinetic energy when the ball rebounds back.
No, that would be perfectly legal. Hitting the ball before it bounces is called a volley.
When a ball is dropped, it gains kinetic energy as it falls. Upon hitting a surface, this kinetic energy is converted into elastic potential energy as the ball compresses. This potential energy is then converted back into kinetic energy as the ball bounces back up, with some energy being lost as heat and sound during the process. This cycle of energy conversion causes the ball to bounce.
The ball bounces back and forth, like an echo.
Yes and no. You cannot usually hit a tennis ball that is not on your side, but if the ball bounces on your side first and, when it bounces, spins back to the opponent's side of the court, you may hit it before it bounces again.
The kinetic energy of a ball is transferred into potential energy when the ball compresses upon hitting the ground. When the ball bounces back up, the potential energy is converted back into kinetic energy, resulting in the bounce of the ball. The higher the initial kinetic energy, the higher the bounce of the ball.
A ball bounces higher on a hard floor compared to a rug because the floor is more rigid and provides a better surface for bouncing. The rug absorbs some of the energy from the ball, resulting in a lower bounce.
When a ball bounces, elastic potential energy is stored in the ball as it gets compressed upon hitting the ground. This potential energy is then converted into kinetic energy as the ball rebounds off the ground, causing it to bounce back up. The more elastic the ball, the higher it will bounce as it can better convert the stored potential energy back into kinetic energy.
A ball bounces because of the conservation of energy. When a ball is dropped, it gains potential energy. When it hits the ground, this energy is converted into kinetic energy, causing the ball to bounce back up until all the energy is dissipated.
Yes, the height from which a ball is dropped affects how high it bounces back. The higher the drop height, the higher the bounce due to the increased potential energy the ball gains from the greater height.
I think a basket ball bounces the highest.