[" Two copocitors of capacitance "3" ,H and "6" muF "],[" respectively are charged to a potential of "12" V "],[" each.They are connected to each other such that "],[" the positive plate of one is joined to the negative "],[" plate of the other.The potential difference "],[" across each copacitor will now be "]

Two capacitors of capacitance 2muF and 4muF respectively are charged to a potential of 12 V. they are now connected to each other, with the positive plate of each joined to the negative plate of the other. The potential difference across each capacitor will be

Two capacitors of capacitances 3 muF and 6 muF are charged to a potential of 12 V each. They are now connected to each other, with the positive plate of each joined to the negative plate of the other. The potential difference across each will be

Two capacitors of capacitances 3 muF and 6 muF are charged to a potential of 12 V each. They are now connected to each other, with the positive plate of each joined to the negative plate of the other. The potential difference across each will be

Two capacitors of capacitances 3 muF and 6muF are charged to a potential of 12V each. They are now connected to each other, with the positive plate of each joined to the negative plate of the other. The potential difference across each will be

Two capacitors of capacitances 3muF and 6muF are charged to a potential of 12V each. They are now connected to each other, with the positive plate of each joined to the negative plate of the other. (A) the common potential will be 12V (B) the loss in energy will be 576muJ (c) the common potential will be 4V (D) the loss in energy will be 144 muJ

Two capacitors of capacitances 3muF and 6muF are charged to a potential of 12V each. They are now connected to each other, with the positive plate of each joined to the nagative plate of the other. (A) the common potential will be 12V (B) the loss in energy will be 576muJ (c) the common potential will be 4V (D) the loss in energy will be 144 muJ

Two capacitor of capacitance 2muF and 3muF respectively are charged to potential difference 20 V each. Now the capacitors are connected such that the positively chargd plate of one capacitory is connected to the negatively charged plate of the other. after the current in the circuit has become negligible, the potential difference across the 2muF capacitor is ____V.

A capacitor of capacitance 5 muF is charged to a potential difference of 10 volts and another capacitor of capacitance 9 muF is charged to a potential difference of 8 volts. Now these two capacitors are connected in such a manner that the positive plate of one is connected to the positive plate of other. Calculate the common potential difference across the two capacitors.

Two capacitors of capacitance 2muF and 3muF respectively are charged to potential difference 20 V and 40 V respectively. Now the capacitors are connected in series with a resistance such that the positively charged plate of one capacitor is connected to the positively charged plate of the other. The initial current through the resistance is I_(0) . The potential difference across the 2muF capacitor at the instant the current has reduced to (I_(0))/(2) is_______ V.