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the law of conservation of energy says that the ball will never have as much kinetic energy as it originally had
The situation is similar as when an object falls. Potential energy is converted to kinetic energy (including rotational energy in this case); part of that kinetic energy is converted to heat energy.
The situation is similar as when an object falls. Potential energy is converted to kinetic energy (including rotational energy in this case); part of that kinetic energy is converted to heat energy.
When a soccer player kicks a ball into the air, its kinetic energy is drained through air resistance and by the force of gravity. At its highest point, the ball has all of its vertical kinetic energy converted into potential energy. As the ball falls, this potential energy is converted back into kinetic energy. It should be noted that through the entire process of rising and falling the ball maintained horizontal kinetic energy being dissipated by resistance until it hit the ground and stopped.
After the ball stops moving, most of the energy has been converted into heat energy.
the law of conservation of energy says that the ball will never have as much kinetic energy as it originally had
The situation is similar as when an object falls. Potential energy is converted to kinetic energy (including rotational energy in this case); part of that kinetic energy is converted to heat energy.
The situation is similar as when an object falls. Potential energy is converted to kinetic energy (including rotational energy in this case); part of that kinetic energy is converted to heat energy.
When a soccer player kicks a ball into the air, its kinetic energy is drained through air resistance and by the force of gravity. At its highest point, the ball has all of its vertical kinetic energy converted into potential energy. As the ball falls, this potential energy is converted back into kinetic energy. It should be noted that through the entire process of rising and falling the ball maintained horizontal kinetic energy being dissipated by resistance until it hit the ground and stopped.
You cannot create energy. You can simply convert energy from one form to another, for example potential energy to kinetic energy - dropping a ball, when the ball is released it has potential energy which is converted into kinetic energy as it falls (plus some heat energy). The total energy of a system has to remain constant, this principle, the conservation of energy, was first postulated in the early 19th century, and applies to any isolated system.
After the ball stops moving, most of the energy has been converted into heat energy.
gravity
Most of the potential energy will be converted to thermal energy in this case.
The principle of conservation of momentum is not satisfied, since the sum of external forces is not equal to zero, if the ball falls the net force is equal to the weight, makes the ball Vary your speed and therefore their momentum.
According to the scientific law of conservation of energy the energy can be sustained by the bouncy ball indefinitely
Potential energy to kinetic energy
The potential energy that gathered as the ball was ascending rapidly converts to kinectic energy as the ball falls downwards, at a rate of 9.801 meters/second squared.