When the uncharged capacitor is charged through a resistor 'R' by a battery of emf 'epsilon’' as shown, the time taken to get charge that is 50% of the equilibrium value would be

Assertion : When an uncharged capacitor is charged by a battery only 50% of the energy supplied is stored in the capacitor. Reason : Rest 50% is lost.

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 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

An Uncharged capacitor C is connected to a battery through a resistance R . Show that by the time the capacitor gets fully charged, the energy dissipated in R is the same as the energy stored in C .

Six capacitors each of capacitance 'C' is connected as shown in the figure and initially all the capacitors are uncharged . Now a battery of emf = epsilon is connected. How much charge will flow through the battery if the switch is on :

If an uncharged capacitor is charged by connecting it with an ideal battery and a resistance R as shown. Then heat generated in resistor R by the time capacitor stores energy (1)/(8) CV^(2) is :

Three initially uncharged capacitors are arranged with batteries as shown in. Find the charge on each capacitor. .

A capacitor gets a charge of 60muC when it is connected to a battery of emf 12 V. Calculate the capacitance of the capactor.

In the given circuit the capacitor (C) may be charged through resistance R by a battery V by closing switch (S_1) . Also when (S_1) is opend and (S_2) is closed the capacitor is connected in series with inductor (L). When the capacitor gets charged compleely, (= (S_1) is opened and (S_2) is closed, Then,

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:-