At a frequency `omega_(0)` the reactance of a certain capacitor equal that of a certain inductor. If the frequency changed to `2omega_(0)`. What is the ratio of the reactance of the inductor to that of the capacitor?

At a certain frequency omega_(1) , the reactance of a certain capacitor equals that of a certain inductor. If the frequency is changed to omega_(2) = 2omega_(1) , the raito of reactance of the inductor to that of the capacitor is :

What is the reactance of a capacitor connected to a constant DC source?

The reactance of a 25 muF capacitor at the AC frequency of 4000Hz is

The figure shows the graphical variation of the reactance of a capacitor with frequency of ac source. (a) find the capacitance of the capacitor (b)an ideal inductor has the same reactance at 100 Hz frequency as the capacitor has the same frequency find the value of the inductor. (c) draw the graph showing the variation of the reactance of this inductor with frequency

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

When the frequency of the AC source in an LCR circuit equals the resonant frequency, the reactance of the circuit is zero. Does it mean that there is no current through the inductor or the capacitor?

An AC source of frequency omega when fed into a RC series circuit, current is recorded to be l. If now frequency is changed to (omega)/(4) (keeping voltage same), the current is found to 1/2. The ratio of reactance to resistance at original frequency omega is

An ac source of angular frequency omega is fed across a resistor R and a capacitor C in series. The current registered is I. If now the freqency of source is chaged to (omega)//3 (but maintainging the same voltage), the current in the circuit is found to be halved. Calculate the ration of hte reactance to resistance at the original frequency omega .

The reactance of a capacitor of capacitance C is X. If both the frequency and capacitance be doubled, then new reactance will be (a) X (b) 2X (c) 4X (d) (X)/(4)

An a.c. source of angular frequency omega is fed across a resistor R and a capacitor C in series. The current registered is I. If now the frequency of the source is changed to omega//3 (but maintaining the same voltage), the current in the circuit is found to be halved. calculate the ratio of reactance to resistance at the original frequency omega .