Case 1: An electron is released from rest in a uniform electric field. Case 2: A proton is released from rest in a uniform electric field of the same magnitude as in case 1. How does the electric potential energy of the charge-field system behave in these cases? In case 1 the potential energy increases, but in case 2 it decreases. In both cases, the potential energy decreases. In case 1 the potential energy decreases, but in case 2 it increases. In both cases, the potential energy increases. cam

Case 1: An electron is released from rest in a uniform electric field. Case 2: A proton is released from rest in a uniform electric field of the same magnitude as in case 1. How does the electric potential energy of the charge-field system behave in these cases? In case 1 the potential energy increases, but in case 2 it decreases. In both cases, the potential energy decreases. In case 1 the potential energy decreases, but in case 2 it increases. In both cases, the potential energy increases. cam

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Question

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Case 1: An electron is released from rest in a uniform electric field. Case 2: A proton is released from rest in a
uniform electric field of the same magnitude as in case 1. How does the electric potential energy of the charge-field
system behave in these cases?
In case 1 the potential energy increases, but in case 2 it decreases.
In both cases, the potential energy decreases.
In case 1 the potential energy decreases, but in case 2 it increases.
In both cases, the potential energy increases.
cam

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