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As a ball fall downwards, it's velocity continuously increases, therefore the kinetic energy increases. As the height from the ground level decreases, the potential energy decreases. Further, the total mechanical energy remains constant throughout the motion.
Gravitational potential energy increases; kinetic energy increases.
it decreases
When the ball falls down, the potential energy decreases (potential energy is greater at a greater height), but the kinetic energy (energy due to movement) will increase.
Potential energy is stationary object while if that object is in motion then it is said that that now that object posseses kinetic energy. so if that ball is on table it posses p.e. and if u throw it carries p.e.
As a ball fall downwards, it's velocity continuously increases, therefore the kinetic energy increases. As the height from the ground level decreases, the potential energy decreases. Further, the total mechanical energy remains constant throughout the motion.
As a ball fall downwards, it's velocity continuously increases, therefore the kinetic energy increases. As the height from the ground level decreases, the potential energy decreases. Further, the total mechanical energy remains constant throughout the motion.
Gravitational potential energy increases; kinetic energy increases.
it decreases
As the ball returns to its original shape, kinetic energy decreases and potential energy increases.
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
When the ball falls down, the potential energy decreases (potential energy is greater at a greater height), but the kinetic energy (energy due to movement) will increase.
Potential energy is stationary object while if that object is in motion then it is said that that now that object posseses kinetic energy. so if that ball is on table it posses p.e. and if u throw it carries p.e.
According to Charles's Law, temperature and volume are proportional; that is, as temperature increases, volume increases by the same factor, and vice versa. Thus, as the temperature of the air inside the beach ball decreases, its volume decreases as well.
As we increase the altitude of the ball the potential energy increases.
As the temperature of the air (or any gas) increases, the density decreases, which in turn decreases the amount of resistance on the ball. So a ball struck with the same amount of enrgy will fly further when it's hot.
elastic potential