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| 184_notes:steady_state [2017/07/31 17:15] – dmcpadden | 184_notes:steady_state [2017/08/02 19:18] – dmcpadden | ||
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| ==== Before the wires are connected ==== | ==== Before the wires are connected ==== | ||
| + | {{ 184_notes: | ||
| - | ==== Immediately after the wires are connected ==== | + | Suppose we have a battery, with one positive end and one negative end (could be either the chemical model or mechanical model of the battery). At each end, we connect a conductive wire. Before we connect |
| - | ==== A short time after the wires are connected | + | {{184_notes: |
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| + | The wire that is connected to the negative end of the battery would have a negative distribution of charge because the excess electrons would be able to spread along the length of the wire. Since the wire is a conductor, those excess charges would spread out along the surface of the wire, leaving the interior of the wire with a net electric field equal to zero. A similar process would occur for the wire connected | ||
| + | |||
| + | If we zoom in on the gap between the wires, We can see an electric field at the end of the wires; however that electric field is cancelled out by the electric field from the wire across the gap. So even in the ends of the wires, the net electric field is zero. | ||
| - | ==== Some time after the wires are connected ==== | ||