Will is shooting rubber bands at a target on the wall. Describe the types of energy involved in shooting the rubber bands.

Potential energy in the spring(rubber band)

Kinetic energy of the flying band

Potential energy in gravitational field drops as band falls

When shooting rubber bands at a target on the wall, there are several types of energy involved:

1. Elastic Potential Energy: The rubber band possesses potential energy due to its elasticity. As it is stretched, the rubber band accumulates potential energy, which is stored in the form of elastic potential energy. This energy is ready to be converted into other forms of energy when the rubber band is released.

2. Kinetic Energy: When the rubber band is released, it rapidly returns to its original shape, converting the stored elastic potential energy into kinetic energy. The rubber band gains kinetic energy as it moves toward the target. This energy is responsible for the motion and speed of the rubber band as it travels through the air.

3. Gravitational Potential Energy: If the rubber band is elevated above the ground, it possesses gravitational potential energy. This energy depends on the height at which the rubber band is situated. As the rubber band is pulled and released, the gravitational potential energy is converted into kinetic energy.

4. Sound Energy: When the rubber band strikes the target on the wall, it causes vibrations in the air molecules, resulting in the production of sound energy. This energy is generated due to the impact and the subsequent vibrations caused by the rubber band hitting the target.

It's important to note that these types of energy can be interconnected and mutually converted. The elastic potential energy is transformed into kinetic energy when released, while the gravitational potential energy might also contribute to the overall kinetic energy of the rubber band when it is released from a higher position.