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The potential energy gets less until the ball gets to the bottom of the hill, at which point the potential energy is zero. The potential energy that is lost, gets converted to Kinetic energy of the ball that goes faster and faster as it gets more and more of the Potential energy.
Kinetic energy is transformed in Potential elastic and back.
The potential energy starts decreasing. It gets converted into kinetic energy.
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.
As we increase the altitude of the ball the potential energy increases.
Its potential energy increases as it regains its shape.
at its highest point, when it stops and starts to fall back
at its highest point, when it stops and starts to fall back
The potential energy gets less until the ball gets to the bottom of the hill, at which point the potential energy is zero. The potential energy that is lost, gets converted to Kinetic energy of the ball that goes faster and faster as it gets more and more of the Potential energy.
The potential energy gets less until the ball gets to the bottom of the hill, at which point the potential energy is zero. The potential energy that is lost, gets converted to Kinetic energy of the ball that goes faster and faster as it gets more and more of the Potential energy.
The potential energy gets less until the ball gets to the bottom of the hill, at which point the potential energy is zero. The potential energy that is lost, gets converted to Kinetic energy of the ball that goes faster and faster as it gets more and more of the Potential energy.
Kinetic energy is transformed in Potential elastic and back.
Potential Energy = mass * gravity * height. The higher the ball, the greater its PE. . Kinetic Energy = ½ * mass * velocity. The ball slows down as it goes up. As it goes up it, Kinetic energy decreases. . Kinetic energy decreases as potential energy increases. And the reverse is true as the ball comes down. The total energy (PE + KE) remains constant
The potential energy starts decreasing. It gets converted into kinetic energy.
A body at rest has potential energy due to gravity. An example might be a ball that is tossed straight up. As it goes up, it is trading kinetic energy for potential energy. When it reaches the high point, its kinetic energy is zero and its potential energy is maximal, causing it to start falling, initiating the re-trade of potential energy for kinetic energy.
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.
When a ball is squashed, it gains potential energy due to the compression of its material. This potential energy is stored in the form of elastic potential energy, as the ball has the potential to return to its original shape when released.