Two spherical conductors each of capacity `C` are charged to potetnial `V` and `-V`. These are then conneted by means of a fine wire. The loss of energy will be

Two spherical conductors cach of capacity C are charged to potential V and -V. These are connected by means of a wire. The loss of energy is

A capacitor of capacity C charged to potential "V" and " then connected to an identical uncharged capacitor then loss of energy is

The capacities of two conductors are C_(1) and C_(2) and their respectively potentials are V_(1) and V_(2) . If they are connected by a thin wire, then the loss of energy will be given by

The capacities of two conductors are C_(1) and C_(2) and their respectively potentials are V_(1) and V_(2) . If they are connected by a thin wire, then the loss of energy will be given by

Two conductors of capacity 8.4mF each is charged to potential 500V and -500V are joined by a conducting wire.If the mass of the wire is 500g and specific heat of the material is 0.1(cal)/g/^(@)C the raise in the temperature of the wire is

Two capacitors of capacitance 10 muF and 20 muF are charged to potential 20 V and 10 V respectively. If they are connected to share charges, then loss of energy is

A condenser of capacity 500 pF is charged to a potential 100V. Find the charge on the condenser and energy stored in it.

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.

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.