A stationary ball has energy. When you push the ball, its energy is transferred to
energy . As a result, the total amount of energy
Word Bank:
stayed the same decreases increases kinetic potential
A stationary ball has potential energy. When you push the ball, its energy is transferred to kinetic energy. As a result, the total amount of energy increases.
When you push a stationary ball, its energy is transferred to "kinetic energy." As a result, the total amount of energy "increases."
When you push a stationary ball, its energy is transferred to kinetic energy. Kinetic energy is the energy possessed by an object due to its motion. So, as the ball starts moving, its potential energy is converted into kinetic energy.
To understand why the answer is kinetic energy, let's break down the options:
1. Stays the same: This is not the correct answer because when the ball starts moving, its energy is being transferred to another form (kinetic energy) and therefore the total amount of energy changes.
2. Decreases: This is also not the correct answer because the ball gains kinetic energy when it starts moving, which means the total amount of energy increases rather than decreases.
3. Increases: This is the correct answer because when you push the ball and it starts moving, its potential energy is converted into kinetic energy. Therefore, the total amount of energy increases.
So, to summarize, when you push a stationary ball, its energy transfers to kinetic energy, resulting in an increase in the total amount of energy.