A capacitor discharges through an inductor of 0.1 henry . If the frquency of discharge is 1000 Hz, calculate the capacitance.

A 120 volt AC source is connected across a pure inductor of inductance 0.70 henry. If the frequency of the source is 60Hz , the current passing through the inductor is

A capacitor, a resistor and a 40 mH inductor are connected in series to an a.c. source of frequency 60 Hz. Calculate the capacitance of the capacitor,if current is in phase with the voltage.

Let C be the capacitance of a capacitor discharging through a resistor R. Suppose t_1 is the time taken for the energy stored in the capacitor to reduce to half its initial value and t_2 is the time taken for the charge to reduce to one-fourth its initial value. Then the ratio t_1//t_2 will be

A capacitor discharges through a resistance. The stored energy U_0 in one capacitive time constant falls to

A charged capacitor is discharged through a resistance. The time constant of the circuit is eta . Then the value of time constant for the power dissipated through the resistance will be

A capacitor is charged through a potential difference of 200 V, when 0.1C charge is stored in it. The amount of energy released by it, when it is discharged is

When a capacitor discharges through a resistance R, the time constant is tau and the maximum current in the circuit is i_0 . Then,

A parallel-plate capacitor is filled with a delectric meterial having resistivity (rho) and dielectric constant K.The capcitor is charged and disconnected from the charging source. The capacitor is slowly discharged through the dielectric.Show that the time constant of the discharge is independent of all gepmetrical parameters like the plate area or separation between the plates. Find this time constant.

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 of 1 muF capacity is discharging thorugh a resistor. If its energy reduces to half in one second. The value of resistance will be