First, the raised hammer has more potential energy since it has the potential to go higher or lower. Second, when you hit the hammer on the table, the stored potential energy is converted to kinetic energy as the hammer is falling
Kinetic energy can be transferred from one moving object to another (vibration and rotation) and is dependent on an object's speed or velocity and mass. ... Second, when you hit the hammer on the table, the stored potential energy is converted to kinetic energy as the hammer is falling.
How does a hammer have potential energy?
By the time the hammer reaches the nail, it will have kinetic energy. It has this energy, of course, because the force of gravity (its weight) accelerated it as it came down. ... This "stored work" is called potential energy, since it has the potential of being transformed into kinetic energy just by releasing the hammer.
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Answer:
First, the raised hammer has more potential energy since it has the potential to go higher or lower. Second, when you hit the hammer on the table, the stored potential energy is converted to kinetic energy as the hammer is falling
Answer:
Kinetic energy can be transferred from one moving object to another (vibration and rotation) and is dependent on an object's speed or velocity and mass. ... Second, when you hit the hammer on the table, the stored potential energy is converted to kinetic energy as the hammer is falling.
How does a hammer have potential energy?
By the time the hammer reaches the nail, it will have kinetic energy. It has this energy, of course, because the force of gravity (its weight) accelerated it as it came down. ... This "stored work" is called potential energy, since it has the potential of being transformed into kinetic energy just by releasing the hammer.