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Will different heights affect the bounce of the ball?
The height you drop the ball from will affect the bounce height this is because as the drop height increases so does the bounce height it is all to do with energy transfers. Also the waste energy is the sound and heat energy hope this helps.
Energy transfer diagram bouncing ball?
Potential energy to Kinetic energy
A girl throws a ball 15 m into the air the ball has the maximum potential energy at a height of?
The ball has the highest potential energy at its maximum height (15m in the air). At the beginning, the ball has only kinetic energy and no potential energy. But as the ball travels upward, kinetic energy is converted into potential energy. When the ball changes direction, there is no kinetic energy, as all of it is now potential energy. As the ball returns back down, potential energy is converted back into kinetic energy.
How does the drop height of a ball affect the height of its bounce?
The higher the height at which the ball is dropped from, the higher the ball bounces. Look at it in terms of energy. Initially, before the ball is dropped, the ball's potential energy, E is given by E = mgh, where m is the mass of the ball, g is the gravitational acceleration and h is the height of the ball. When the ball is dropped, the potential energy is converted to kinetic energy, and at the point of impact, , i.e. when the ball is level with the ground, and h = 0, the kinetic energy is E, given by E = 0.5mv2, where v is the velocity of the ball. The ball hits the ground, and rises again - its kinetic energy is being converted back to potential energy. The ground absorbs some of the energy upon impact, but most of the energy stays with the ball. So the kinetic energy is converted to potential energy, and once all of the kinetic energy is converted, the ball reaches its maximum height. Clearly, a higher kinetic energy corresponds to a higher bounce height. 0.5mv2 = mgh The amount of energy that the ground absorbs does not change much with the height of the ball as well.As the drop-height increases, the bounce-height too will increase, but not always in direct proportion. The efficiency will decrease as the drop height is increased.
How does the height of the release point affect the height of a tennis ball's rebound?
(Potential) energy is directly proportional to the release height.
Will different heights affect the bounce of the ball?
The height you drop the ball from will affect the bounce height this is because as the drop height increases so does the bounce height it is all to do with energy transfers. Also the waste energy is the sound and heat energy hope this helps.
Energy transfer diagram bouncing ball?
Potential energy to Kinetic energy
What is the relationship between the height of the ball and potential energy?
Direct (double the height to double the potential energy).
A girl throws a ball 15 m into the air the ball has the maximum potential energy at a height of?
The ball has the highest potential energy at its maximum height (15m in the air). At the beginning, the ball has only kinetic energy and no potential energy. But as the ball travels upward, kinetic energy is converted into potential energy. When the ball changes direction, there is no kinetic energy, as all of it is now potential energy. As the ball returns back down, potential energy is converted back into kinetic energy.
If a Ping-Pong ball collided with a Whiffle ball what would happen to the kinetic energy?
The kinetic energy would transfer Ping Pong ball!
What is the potential energy of a 500g ball held at a height of 0.800m?
The ball's potential energy at 0.8 meters is 3.92 joules.
When did the potential energy of the ball begin to change to kinetic energy?
when the position of the BALL is changed WITH RESPECT TO HEIGHT then P.E change in to K.E
How does the drop height of a ball affect the height of its bounce?
The higher the height at which the ball is dropped from, the higher the ball bounces. Look at it in terms of energy. Initially, before the ball is dropped, the ball's potential energy, E is given by E = mgh, where m is the mass of the ball, g is the gravitational acceleration and h is the height of the ball. When the ball is dropped, the potential energy is converted to kinetic energy, and at the point of impact, , i.e. when the ball is level with the ground, and h = 0, the kinetic energy is E, given by E = 0.5mv2, where v is the velocity of the ball. The ball hits the ground, and rises again - its kinetic energy is being converted back to potential energy. The ground absorbs some of the energy upon impact, but most of the energy stays with the ball. So the kinetic energy is converted to potential energy, and once all of the kinetic energy is converted, the ball reaches its maximum height. Clearly, a higher kinetic energy corresponds to a higher bounce height. 0.5mv2 = mgh The amount of energy that the ground absorbs does not change much with the height of the ball as well.As the drop-height increases, the bounce-height too will increase, but not always in direct proportion. The efficiency will decrease as the drop height is increased.
How does the height of the release point affect the height of a tennis ball's rebound?
(Potential) energy is directly proportional to the release height.
Can a ball rebound to a height greater than the height from which is was dropped?
no,due to physics the rebound weight and energy
A girl throws a ball 15m into the air The ball has the maximum potential energy at a height of what?
At its highest point.
How does the height of a ball affect the height of its bounce?
the potential energy gets changed into kinetic energy so when it hits the ground it will bounce back up.
