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Sure, when the ball is in the highest position, it has a maximum amount of potential energy. When it is just about to hit the other balls, the potential energy has been converted to kinetic energy. When the other ball goes up again, the kinetic energy turns, once more, into potential energy.Sure, when the ball is in the highest position, it has a maximum amount of potential energy. When it is just about to hit the other balls, the potential energy has been converted to kinetic energy. When the other ball goes up again, the kinetic energy turns, once more, into potential energy.Sure, when the ball is in the highest position, it has a maximum amount of potential energy. When it is just about to hit the other balls, the potential energy has been converted to kinetic energy. When the other ball goes up again, the kinetic energy turns, once more, into potential energy.Sure, when the ball is in the highest position, it has a maximum amount of potential energy. When it is just about to hit the other balls, the potential energy has been converted to kinetic energy. When the other ball goes up again, the kinetic energy turns, once more, into potential energy.
mechanical energy
Just about as much as it had potential energy before it started falling - since most of the potential energy will be converted into kinetic energy. The exact amount depends from how high it falls.
Mechanical Energy :)
It is the sum of the potential and kinetic energies
When it stops: at the top of its swing.Related Information:You know this because it has the least kinetic energy at this point, but the kinetic and potential energies have to add up.
Sure, when the ball is in the highest position, it has a maximum amount of potential energy. When it is just about to hit the other balls, the potential energy has been converted to kinetic energy. When the other ball goes up again, the kinetic energy turns, once more, into potential energy.Sure, when the ball is in the highest position, it has a maximum amount of potential energy. When it is just about to hit the other balls, the potential energy has been converted to kinetic energy. When the other ball goes up again, the kinetic energy turns, once more, into potential energy.Sure, when the ball is in the highest position, it has a maximum amount of potential energy. When it is just about to hit the other balls, the potential energy has been converted to kinetic energy. When the other ball goes up again, the kinetic energy turns, once more, into potential energy.Sure, when the ball is in the highest position, it has a maximum amount of potential energy. When it is just about to hit the other balls, the potential energy has been converted to kinetic energy. When the other ball goes up again, the kinetic energy turns, once more, into potential energy.
mechanical energy
Just about as much as it had potential energy before it started falling - since most of the potential energy will be converted into kinetic energy. The exact amount depends from how high it falls.
The height in meters and the velocity in m/s are needed.
Total Energy = Potential + Kinetic TE=PE+KE
The coaster have a large amount of potential energy when it gain height, kinetic energy when it gain speed instead.
When you go up or down.
When the pole vaulter just passes over the bar, he/she is almost stationary, and certainly at the maximum height reached above the ground, so apart from a very small amount of kinetic energy as a result of passing over the bar, all the energy put into the vault is bound up in gravitational potential energy. During the approach, the jumper runs up so has acquired kinetic energy. Then during the vault he/she exerts force on the pole to gain height, and to convert the horizontal kinetic energy into a vertical direction. This force comes from the chemistry of the muscles of the body. So the overall conversion is from kinetic energy plus muscular chemical energy into gravitational potential energy, which is then converted back to kinetic energy on the descent.
It is the sum of the potential and kinetic energies
Mechanical Energy :)
No, because potential energy is the amount of energy that COULD be used, while kinetic energy is the amount of energy that IS being used.