Consider an adjustable parallel-plate capacitor that is charged and then disconnected from the battery that charged it. While remaining disconnected what happens to the electric field between the capacitor’s plates (a) if the surface area of the plates is decreased, and (b) if the separation distance between the plates is decreased? Explain why in both cases.
Consider an adjustable parallel-plate capacitor that is charged and then disconnected from the battery that charged it. While remaining disconnected what happens to the electric field between the capacitor’s plates (a) if the surface area of the plates is decreased, and (b) if the separation distance between the plates is decreased? Explain why in both cases.
Given:-
an adjustable parallel-plate capacitor that is charged and then disconnected from the battery that charged it.both cases While remaining disconnected.
Explain:- what happens to the electric field between the capacitor’s plates
Case a) if the surface area of the plates is decreased,
Case b) if the separation distance between the plates is decreased
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