Two capacitors of capacity `6 muF` and 3 muF` are charge `100 V` and `50 V` separately and connected as shown in Now all the three switches `S_(1),S_(2)`, and `S_(3)` are closed.

Which plates form an isolated system?

(i) In an isolated system (neither connected to the terminal of a battery nor to any other source of charge e.g each) net charge remains constant. (ii) From two terminal of a battery or from two plates of a capacitor equal and opposite charges enter or leave. Question : Two capacitors of capacity 6muF and 3muF are charged to 100 V and 50 V separatelly and connected as shown. Now all the three swiches S_(1)S_(2) and S_3 are closed. Which plate (s) form an isolated system .

Two capacitors of capacity 6 muF and 3 muF are charge 100 V and 50 V separately and connected as shown in figure. Now all the three switches S_(1),S_(2) , and S_(3) are closed. Charge on the 3 muF capacitor in steady state willl be.

Two capacitors of capacity 6 muF and 3 muF are charge 100 V and 50 V separately and connected as shown in (Fig.4.201.) Now all the three switches S_(1),S_(2) , and S_(3) are closed. Charge on the 6 muF capacitor in steady state will be.

Two capacitros of capacity 6 and 3 mu F are charged to 100 V and 50 V separately and connected as shown. Now all the three switches S_(1), S_(2) and S_(3) are closed. Charges on both the capacitors in steady state will be (on 6 mu F first)

Two capacitros of capacity 6 mu F are charged to 100 V and 50 V separately and connected as shown. Now all the three switches S_(1), S_(2) and S_(3) are closed. Charges on both the capacitors in steady state will be (on 6 mu F first)