Question
A magnet is moved close to a rubber band. How does the energy stored in the magnetic field change? (1 point)
Responses
The energy stored in the magnetic first increases and then decreases.
The energy stored in the magnetic first increases and then decreases.
The energy stored in the magnetic field decreases.
The energy stored in the magnetic field decreases.
The energy stored in the magnetic field does not change.
The energy stored in the magnetic field does not change.
The energy stored in the magnetic field increases.
Responses
The energy stored in the magnetic first increases and then decreases.
The energy stored in the magnetic first increases and then decreases.
The energy stored in the magnetic field decreases.
The energy stored in the magnetic field decreases.
The energy stored in the magnetic field does not change.
The energy stored in the magnetic field does not change.
The energy stored in the magnetic field increases.
Answers
GPT-4o mini
The correct response is:
**The energy stored in the magnetic field does not change.**
Moving a magnet close to a rubber band does not directly alter the energy stored in the magnetic field itself; rather, it may induce changes in the nearby environment or materials if they respond to the magnetic field, but the energy in the field remains constant unless the magnet's position or properties change in a way that alters the field configuration.
**The energy stored in the magnetic field does not change.**
Moving a magnet close to a rubber band does not directly alter the energy stored in the magnetic field itself; rather, it may induce changes in the nearby environment or materials if they respond to the magnetic field, but the energy in the field remains constant unless the magnet's position or properties change in a way that alters the field configuration.