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Forums
Physics
Classical Physics
Electromagnetism
Proof of Q=CV for arbitrarily shaped capacitors
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[QUOTE="jkfjbw, post: 6631927, member: 678639"] Are you saying that for any point ##P_1## on the surface of the conductor and ##P_2## an arbitrary point outside the conductor, ##V_\text{old}(P)## the initial voltage as a function in terms of a point in space and ##V_\text{new}(P)## the latter voltage as a function in terms of a point in space, that if ##V_\text{new}(P_1) = c V_\text{old}(P_1)## for some number ##c##, then ##V_\text{new}(P_2) = c V_\text{old}(P_2)## for the same constant ##c##? It is not clear to me why this would be the case. [/QUOTE]
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Forums
Physics
Classical Physics
Electromagnetism
Proof of Q=CV for arbitrarily shaped capacitors
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