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.
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.
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.**
When a magnet is moved close to a rubber band, primarily the magnetic field around the magnet interacts with the properties of the rubber band. However, the energy stored in the magnetic field itself does not increase or decrease simply due to this movement unless there is a specific change in configuration or current that affects the magnetic field. The rubber band does not have magnetic properties that would absorb or alter the energy within the magnetic field substantially in this scenario.
**The energy stored in the magnetic field does not change.**
When a magnet is moved close to a rubber band, primarily the magnetic field around the magnet interacts with the properties of the rubber band. However, the energy stored in the magnetic field itself does not increase or decrease simply due to this movement unless there is a specific change in configuration or current that affects the magnetic field. The rubber band does not have magnetic properties that would absorb or alter the energy within the magnetic field substantially in this scenario.