When you throw up an orange up into the air what kind of energy increases as it's height increase
When a ball is dropped, its potential energy decreases due to the decrease in height, while its kinetic energy increases as it gains speed due to gravity pulling it downwards.
Increasing the height from which a ball is dropped will result in a higher bounce because the ball gains more potential energy as it falls from a greater height. This increase in potential energy translates to a greater kinetic energy upon impact with the ground, leading to a higher bounce.
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.
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.
When you throw a ball, potential energy is converted into kinetic energy. As the ball moves through the air, its potential energy decreases as it gains kinetic energy from the force of your throw.
When a ball is dropped, its potential energy decreases due to the decrease in height, while its kinetic energy increases as it gains speed due to gravity pulling it downwards.
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.
Increasing the height from which a ball is dropped will result in a higher bounce because the ball gains more potential energy as it falls from a greater height. This increase in potential energy translates to a greater kinetic energy upon impact with the ground, leading to a higher bounce.
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.
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.
potential energy increases with increase in height.
When you throw a ball, potential energy is converted into kinetic energy. As the ball moves through the air, its potential energy decreases as it gains kinetic energy from the force of your throw.
increases while potential energy decreases. This is because the ball is losing height and gaining speed as it falls due to the force of gravity acting upon it.
As the ball is dropped, its potential energy is converted into kinetic energy. The potential energy decreases as the ball falls due to gravity, while the kinetic energy increases. At the moment of impact, the kinetic energy is maximum, and the potential energy is minimum.
Yes. And it needn't be released from a great height. Nature conserves energy. If you drop the ball from your couch, it will bounce even though you didn't throw it. You gave the ball this energy by picking it up and bringing it above the floor.
The ball has the highest gravitational potential energy when it is at its highest point in the air, as that is when it has a velocity of zero and is up the highest.
The kinetic energy of the ball is at its maximum when it is initially thrown, as it has the highest speed at that point. The gravitational potential energy of the ball is at its maximum when the ball reaches its highest point in the throw, where its height above the ground is greatest.