An inductor of inductance `2.0mH` is connected across a charged capacitor of capacitance `5.0muF` and the resulting `L-C` circuit is set oscillating at its natural frequency. Let `Q` denotes the instantaeus charge on the capacitor and `I` the current in the circuit. It is found that the maximum value of `Q` is `200muC`.

An inductor of inductance 2.0 mH s connected across a charged capacitor of capacitance 5.0 mu F and the resulting LC circuit is set oscillating at its natural frequency. Let Q denote the instantaneous charge on the capacitor and I the current in the circuit. It is found that the maximum value of charge Q is 200 mu C . a. When Q = 100 mu C , what is the value of |(dI)/(dt)| ? b. When Q = 200 mu C , what is the value of I ? c. Find the maximum value of I . d. When I is equal to one-half its maximum value, what is the value of |Q| ?

An inductor of inductance 20 mH is connected across a charged capacitor of capacitance 5 mu F & resulting L-C circuit is set oscillating at its natural frequency . The maximum charge q is 200 mu C on the capacitor . Find the potential difference across the inductor when the charge is 100 mu C .

An inductor of inductance 2 mH is connected across a charged capacitor of 5 mu F . Let q denote the instaneous charge on the capacitor and i the current in the circuit . Maximum value of charge is Q = 200 mu C. (a) When Q = 100 mu C what is the value of /di/dt / ? (b) When Q = 200 mu C what is the value of i ?

An AC circuit consists of an inductor of inductance 0.5H and a capacitor of capacitance 8muF in series. The current in the circuit is maximum when the angular frequency of AC source is

A capacitor of capacitance 2 mu F is connected in the tank circuit of an oscillator oscillating with a frequency of 1 kHz. If the current flowing in the circuit is 2 mA , the voltage across the capacitor will be

A capacitor of capacitance as C is given a charge Q. At t=0 ,it is connected to an ideal battery of emf (epsilon) through a resistance R. Find the charge on the capacitor at time t.

A capacitor of capacitance as C is given a charge Q. At t=0 ,it is connected to an ideal battery of emf (epsilon) through a resistance R. Find the charge on the capacitor at time t.

In oscillating Lc circuit, the total stored energy is U and maximum charge upon capacitor is (Q)/(2) , the energy stored in the inductor is

A capacitor of capacitance 1 mu F is charged to potential 2 V and is connected to an inductor of 1 mH. At an instant when potential difference across. The capacitor is 1 V, the current in the circuit is 10^(-2) sqrt((10x)/(3)) ampere. Find out the value of x.

A capacitor of capacitance C is given a charge Q. At t=0 ,it is connected to an uncharged of equal capacitance through a resistance R. Find the charge on the second capacitor as a function of time.