A condenser of capacitance `10muF` has been charged to 100 V . It is now connected to another uncharged condenser in parallel. The common potential becomes 40V. The capacitance of another condenser is

A condenser of capacitance 10 muF has been charged to 100V . It is now connected to another uncharged condenser in parallel. The common potential becomes 40 V . The capacitance of another condenser is

A 10 muF capacitor is charged to a potential difference of 50 V and is connected to another uncharged capacitor in parallel. Now the common potential difference becomes 20 volt. The capacitance of second capacitor is

A 10 muF capacitor is charged to a potential difference of 50 V and is connected to another uncharged capacitor in parallel. Now the common potential difference becomes 20 volt. The capacitance of second capacitor is

A 2 muF condenser is charged upto 200 V and then battery is removed. On combining this with another uncharged condenser in parallel, the potential differences between two plates are found to be 40 V. The capacity of second condenser is

A 2 mu F condenser is charged upto 200 volt and then battery is removed. On combining this with another uncharged condenser in parallel, the potential difference is found to be 40 volt. Find the capacity of second condenser (in mu F )

Two conductors of capacitance 1muF and 2muF are charged to +10V and -20 V They are now connected by a conducting wire. Find (a) their common potential (b) the final charges on them (c) the loss of energy during, redistribution of charges.

A condenser having a capacity of 6 muF is charged to 100 V and is then joined to an uncharged condenser of 14 muF and then removed. The ratio of the charges on 6 muF and 14 muF and the potential of 6 muF will be

A condenser of capacity 16 mF charged to a potential of 20 V is connected to a condenser of capacity C charged to a potential of 10 V as shown in the figure. If the common potential is 14 V. the capacity C is equal to

A capacitorn of 2 muF charged to 50 V is connected in parallel with another capacitor of 1 muF charged to 20 V. The common potential and loss of energy will be

A capacitor of capacitance C_0 is charged to potential V_0 . Now it is connected to another uncharged capacitor of capacitance C_0/2 . Calculate the heat loss in this process.