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Two capacitors of capacitances `C_(1) and C_(2)` are connected in parallel. If a charge q is given to the assembly, the charge gets shared. The ratio of the charge on the capacitor `C_(1)` to the charge on `C_(2)` is

Two capacitors of capacitance C_1" and "C_2 are connected in parallel. If a charge q is given to the assembly, the charge gets shared. The ratio of the charge on the capacitor C_1 to the charge on C_2 is

Two capacitors of capacitances C_1" and "C_2 , are connected in parallel. A charge q given to the combination is distributed between the two. The ratio between this charges on the two capacitors is

Two capacitors of capacitance C_1 and C_2 are connected in series and a voltage V is applied across them.'What is the P.D. across C_1 :

Two conductors of capacitance C_1" and "C_2 are connected by a conducting wire. Some amount of charge is given to the system. How is the ratio of charges acquired by the conductors related to their capacitances?

The charge stored in 2muF capacitor is

Two parallel plate capacitors of capacitances C and 2C are connected in parallel and charged to a potential difference V. The battery is then disconnected and the region between the plates of the capacitor C is completely filled with a material of dielectric constant k. What is the potential difference across the capacitors now?

In the capacitor of capacitance C, charge Q and energy W is stored. If charge is increased upto 2Q,the energy stored will be

A capacitor of capacitance C carrying charge Q is connected to a source of emf E. Finally the charge.on capacitor would be

Two parallel plate capacitors of capacity C and 2C are connected in parallel and charged to a potential difference V. The battery is then disconnected and the space between the plates of the capacitor C is completely filled with a material of dielectic constant K. What is the final potential difference across the capacitors?