In the following circuit the emf of source is `E_(0)=200` volt, R = 20 `Omega,` L = 0.1 henry,
C = 10.6 farad and freqency is variable then the current at frequency f = o and f `= oo` is

If E_(0) = 200 volt, R = 25 ohm, L = 0.1 H and C = 10^(5) F and the frequency is variable, then the current at f = 0 and f = oo will be respectively -

In the given series R-L-C circuit, R = 100 Omega, L = 10^(-3) H, C= 0.1 mu F, V_(0) = 200 V (a) The resonant frequency is 15924 Hz (b) The current at resosnance is 1A (c ) The power dissipated in the circuitd at resonance is 100 W

In a LCR circuit having L=8.0 henry, C=0.5 mu F and R=100 ohm in series. The resonance frequency in per second is

An LCR circuit has L = 10 mH, R = 3 Omega and C = 1 mu F and is connected in series to a source of (20 sin omega t) volt. Calculate the current amplitude at a frequency 20 % lower than the resonance frequency of the circuit.

In a series resonant LCR circuit the voltage across R is 100 volts and R = 1 k(Omega) with C =2(mu)F . The resonant frequency (omega) is 200 rad//s . At resonance the voltage across L is

In the circuit shown below E_(1) = 4.0 V, R_(1) = 2 Omega, E_(2) = 6.0 V, R_(2) = 4 Omega and R_(3) = 2 Omega . The current I_(1) is

In the circuit, E = 10 volt, R_(1) = 5.0 ohm, R_(2) = 10 ohm and L = 5.0 henry. The current just after the switch S is pressed is.

A series LCR circuit with R = 20 Omega, L = 1.5 H and C = 35 mu F is connected to a variable frequency 200 V ac supply. When the frequency of the supply equals the natural frequency of the circuit, what is the average power in Kw transferred to the circuit in one complete cycle?