A capacitor given a charge `Q_(0)` is conected across a resistor R at t = 0. The separation between the plates changes according to `d=(d)/((1+t)) (0 le t lt 1)` Find the variation of charge on capacitor with time.

A capacitor initially given a charge Q_(0) is connected across a resistor R at t=0 . The separation between the plates changes according to d=(d_(0))/((1+t))(0 le t lt1) . A small bulb is connected across the plates of the capacitor which lights when potential difference across the plates of the capacitor reaches V_(0) . Find ( a ) the variation of charge with time ( b ) time when the bulb will light.

In the shown circuit involving a resistance Romega , capacitor of capacitance C farad and an ideal cell of emf E volts, the capacitor is initially uncharged and the key is in position 1. At t = 0, second the key is pushed to position 2 for t_(0)=RC second and then key is pushed back to position 1 for t_(0)=RC seconds. This process is repeated again and again. Assume the time taken to push key from position 1 to 2 and vice versa to be negligible. Then the variation of charge on capacitor with time is best represented by

A capacitor is connected across an inductor. At time t = 0 charge on the capacitor is equal to 1/sqrt2q_"max" , where q_"max" is the maximum charge on the capacitor. The time t, at which the energy stored in the capacitor is equal to the energy stored in the inductor is (The inductance of the inductor is L and capacitance of the capacitor is C. Resistance of the circuit is zero)

A parallel -plate capacitor having plate area 25.0 cm^2 and a separation 2.00 mm between the plates .the capacitor is connected to a bettery of 12.0 V.(a)find the charge on the capacitor .(b) the plate separation is decrerased to 1.00 mm. Find the extra charge given by the bettery to the positive plate.

In a parallel-plate capacitor of plate area A , plate separation d and charge Q the force of attraction between the plates is F .

Two parallel plate capacitors are arranged perpendicular to the common axis. The separation d between the capacitors is much larger than the separation / between their plates and than their size. The capacitors are charged to q_1 and q_2 respectively (figure). Find the force of interaction between the capacitors.

An ideal cell is connected across a capacitor as shown in figure. The initial separation between the plates of a parallel plate capacitor is d. The lower plate is pulled down with a uniform velocity v. Neglect the resistance of the cirucit. Then the variation of charge on capacitor with time is given by

A parallel plate capacitor has plate A and separation d between the plates. The capacitor is connected to a battery of emf V . (a) find the charge on the capacitor. (b) the plate separation is decreases to d//2 . Find the extra charge given by the battery to the positive plate. (c) work done in reducing separation between plates.

A fully charged capacitor C with initial charge q_(0) is connected to a coil of self inductance L at t=0. The time at which the energy is stored equally between the electric and the magnetic fields is

An uncharged capacitor is connected in series with a resistor and a battery. The charging of the capacitor starts at t=0. The rate at which energy stored in the capacitor:-