In a computer simulation, Jeffrey moves a magnet (Magnet 2) toward another magnet (Magnet 1) that cannot move. What happens to the potential energy in the system of magnets?
a The potential energy does not change because the magnets in the system do not change.
b The potential energy increases because Magnet 2 moves against the magnetic force.
c The potential energy decreases because Magnet 2 moves against the magnetic force.
d The potential energy decreases because Magnet 2 moves in the same direction as the magnetic force.
In a computer simulation, Jeffrey moves a magnet (Magnet 2) toward another magnet (Magnet 1) that cannot move. What happens to the potential energy in the system of magnets?
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The correct answer is b. The potential energy increases because Magnet 2 moves against the magnetic force.
Explanation: When Jeffrey moves Magnet 2 toward Magnet 1, which cannot move, Magnet 2 is working against the repulsive or attractive magnetic force between the two magnets. This means that as Magnet 2 approaches Magnet 1, more energy is stored in the system as potential energy. Thus, the potential energy increases as Magnet 2 moves against the magnetic force. If you need more clarification or additional help, feel free to ask!