[" Two capacitors are in parallel and the energy stored is "],[45" J,when the combination is raised to a potential of "3,000],[" V.With the same two capacitors in series,the energy is "],[4*05" J for the same potential.What are their "],[" [Ans.9"mu F,1 mu F" ) "]

Two capacitors are in parallel and the energy strored is 45 J, when the combination is raised to a potential of 3,000 V. With the same two capacitors in series, the energy is 4.05 J for the same potential. What are their capacitannces?

Two capacitors are in parallel and the energy stored is 45J, when the combination is raised to potential of 3000 V. with the same two capacitors in series, the energy stored 4.05J for the same potential. What are their individual capacitances?

Two capacitors are connected in parallel and the energy stored is 18 J, when a potential difference of 6000 V is applied across the combination. With the same capacitors connected in series, the energy stored is 4 J from the same potential difference. what are the individual capacitances?

Calculate energy stored in a capacitor of 5 mu F when it is charged to a potential of 250 volt.

Two condensers are in parallel and the energy of the combination is 0.1 J , when the difference. of potential between terminals is 2 V . With the same two condensers in series, the energy 1.6 xx 10^-2 J for the same difference of potential across the series combination. What are the capacities?

Two condensers are in parallel and the energy of the combination is 0.1 J , when the difference. of potential between terminals is 2 V . With the same two condensers in series, the energy 1.6 xx 10^-2 J for the same difference of potential across the series combination. What are the capacities?

Two capacitors are in parallel and when connected to a source of 3000 V, store 250 J of energy. When they are connected in series to the same source, the energy stored decreases by 190 J for the same potential. Their capacities are in the ratio

A capacitor of 8mu F is charged to a potential of 1000 V.The energy stored in the capacitor is ......