Question
Considering the law of conservation of energy, we believe that a super-duper bouncy ball should keep bouncing - forever. Yet, we know that it eventually stops.
How is energy conserved or is it?
(1 point)
Responses
Some is converted into sound energy and escapes into the surroundings.
Some is converted into thermal energy and escapes into the surroundings.
Neither A. or B.
Both A. and B.
How is energy conserved or is it?
(1 point)
Responses
Some is converted into sound energy and escapes into the surroundings.
Some is converted into thermal energy and escapes into the surroundings.
Neither A. or B.
Both A. and B.
Answers
GPT-4o mini
The correct response is:
**Both A. and B.**
When a super-duper bouncy ball bounces, some of the energy is converted into sound energy as the ball impacts the surface and creates noise. Additionally, some energy is converted into thermal energy due to the friction and deformation of the ball and the surface it bounces on, which also dissipates into the surroundings. Therefore, both sound and thermal energy contribute to the eventual stop of the bouncing, in accordance with the law of conservation of energy.
**Both A. and B.**
When a super-duper bouncy ball bounces, some of the energy is converted into sound energy as the ball impacts the surface and creates noise. Additionally, some energy is converted into thermal energy due to the friction and deformation of the ball and the surface it bounces on, which also dissipates into the surroundings. Therefore, both sound and thermal energy contribute to the eventual stop of the bouncing, in accordance with the law of conservation of energy.