effective capacitance of parallel combination of two capacitors `C_(1) and C_(2)` is `10muF`. When these capacitors are individually connected to a voltage source of 1V, the energy stored in the capacitor `C_(2)`.is 4 times that of ` C_1` If these capacitors are connected in series, their effective capacitor will be: lt

EFIGUREFIGUREective capacitance oFIGURE parallel combination oFIGURE two capacitors C_(1) and C_(2) is 10muFIGURE . When the capacitors are individually connected to a voltage source oFIGURE 1V, the energy stored in the capacitor C_(2) . IFIGURE these capacitors are connected in series, their eFIGUREFIGUREective capacitor will be: lt

n capacitors each of capacity C are joined in parallel. If they are connected to a source of V volts, then the energy stored in the capacitor is

A 2muF capacitor is connected to a 10 V battery. What is the electrostatic energy stored in the capacitor?

If there are n capacitors each of capacitance C in series combination connected to a V volt source, then the energy stored in each capacitor is equal to :

A capacitor of capacitance 1/3muF is connected to a battery of 300volt and charged. Then the energy stored in capacitor is

A 10V battery is connected to two capacitors C_1 and C_2 and a resistor R. When the capacitors are fully charged, then the potential difference across the resistor will be

If two capacitors C_1 & C_2 are connected in parallel then equivalent capacitance is 10 F . If both capacitance are connected across 1V battery then energy stored by C_2 is 4 times of C_1 . Then the equivalent capacitance if they are connected in series is-

Two identical capacitors are connected in series with a source of constant voltage V . If Q is the charge on one of the capacitors, the capacitance of each capacitor is :

Which of the following statements are correct ? (a) When capacitors are connected in parallel the effective capacitance is less than the individual capacitances (b) The capacitances of a parallel plate capacitor can be increased by decreasing the separation of plates. ( c) When capacitors are connected in series the effective capacitance is less than the least of the individual capacities (d) In a parallel plate capacitor the electrostatic energy is stored on the plates.