In a series `LR` circuit `(L=3H,R=1.5Omega)` and `DC` voltage `=1V`. Find current at `T=2` seconds.

In a given series LCR circuit R=4Omega, X_(L)=5Omega and X_(C)=8Omega , the current

In a series LCR circuit R= 200(Omega) and the voltage and the frequency of the main supply is 220V and 50 Hz respectively. On taking out the capacitance from the circuit the current lags behind the voltage by 30(@) . On taking out the inductor from the circuit the current leads the voltage by 30(@) . The power dissipated in the LCR circuit is

In a series L-R circuit (L=35 mH and R=11 Omega) , a variable emf source (V=V_(0) sin omega t) of V_(rms)=220V and frequency 50 Hz is applied. Find the current amplitude in the circuit and phase of current with respect to voltage. Draw current-time graph on given graph (pi=22/7) .

In a series R, L, C circuit X_(L)=10Omega, X_(c) = 4omega and R = 6Omega . Find the power factor of the circuit

The RMS voltage of 10v is applied to a series LCR circuit having R=10ohm, L=1mH and C=10 mu F . Calculate the current at resonance and Q -value of the circuit at resonance.

In a series LCR circuit containing an AC voltage source of frequency omega , current and voltage are measured. Then for the resistance, consider the statements- [a] current is maximum at omega^(2)=1//LC [b] current is minimum at omega^(2)=1//LC [c] voltage across R is maximum at omega^(2) =1//LC [d] voltage across R is minimum at omega^(2)=1//LC the voltage statement is

A series LCR circuit has R=5 Omega, L=40 mH and C=1mu F , the bandwidth of the circuit is

In a series LCR circuit resistance R = 10Omega and the impedance Z = 10 Omega The phase difference between the current and the voltage is

In given circuit R_(1)=5Omega,R_(2)=3Omega=7Omega and supply voltage is 10V. Calculate power dissipated in R_(1) and R_(3) .

In a series LCR circuit, voltage applied is V=3sin(314t+(pi)/(6)) and current from the supply is l=2sin(315t+(pi)/(3)) . Which of the following is correct ?