Three identical charged capacitors each of capacitance 5 micro farad are connected as shown in figure.The potential difference across capacitor 3 long time after the switches K1 and K2 are closed is

Three identical charged capacitors each of capacitance 5 micro farad are connected as shown in figure.The potential difference across capacitor 3 long time after the switches K1 and K2 are closed is tential on the axis an •r' from it is V, then the at a f 'distØO%uatorial line at the same distance away I charged capacitors each of • d entica 5 pF are connected as shown figure. rence across capacitor \ong üme and K2 are closed, is switches KI 100pC@ 1 oopco (2) IOV (4) Zero

zero
  • -27
zero because after a long time the capacitor offers a large resistance to the charge and does not allow to pass it
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Answer is zero

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Net charge in the circuit=0 And There is no battery in circuit So Potential difference across all capacitors is zero So Potential difference across 3rd is also zero
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I don't know if I am right but I know I am applying the right concept ...that is charges only follow voltage orders...there is a opposite charge on 3 capacitor so the charges will neutralise no one can stop that.. so intially we had 300 micro C after neutralisation we will have 100 C that will divide between all the three capacitors

  • -19
zero well explained by rounak
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Zero

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