How does potential energy change with distance for opposite vs like charges?

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Multiple Choice

How does potential energy change with distance for opposite vs like charges?

Explanation:
The distance dependence of the potential energy between two charges follows U = k q1 q2 / r. The sign of q1 q2 sets whether the energy is negative or positive. For opposite charges, q1 q2 is negative, so U is negative and increases (toward zero) as the separation r grows; as they get closer, r decreases and U becomes more negative (decreases). For like charges, q1 q2 is positive, so U is positive and decreases as r grows; as they get closer, r decreases and U increases. In both cases, U → 0 as r → ∞. So potential energy increases with distance for opposite charges and decreases with distance for like charges.

The distance dependence of the potential energy between two charges follows U = k q1 q2 / r. The sign of q1 q2 sets whether the energy is negative or positive. For opposite charges, q1 q2 is negative, so U is negative and increases (toward zero) as the separation r grows; as they get closer, r decreases and U becomes more negative (decreases). For like charges, q1 q2 is positive, so U is positive and decreases as r grows; as they get closer, r decreases and U increases. In both cases, U → 0 as r → ∞. So potential energy increases with distance for opposite charges and decreases with distance for like charges.

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