A circuit contains resistance `R` and an inductance `L` in series. An alternating voltage `V=V_0sinomegat` is applied across it. The currents in `R` and `L` respectively will be
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An inductive circuit contains a resistance of 10 ohms and an inductance of 2 henry. If an alternating voltage of 120 V and frequency 60 Hz is applied to this circuit, the current in the circuit would be nearly

In an AC circuit, voltage V = V_(0)sin omegat and inductor L is connected across the circuit. Then the instantaneous power will be

An AC voltage is applied to a resistance R and an inductance L in series. If R and the inductive reactance are both equal to 3 Omega , the phase difference between the applied voltage and the current in the circuit is

An AC voltage is applied to a resistance R and an inductance L in series. If R and the inductive reactance are both equal to 3 Omega , the phase difference between the applied voltage and the current in the circuit is

A series L-C-R circuit containing a resistance of 120Omega has resonance frequency 4xx10^5rad//s . At resonance the voltages across resistance and inductance are 60V and 40V , respectively. Find the values of L and C .At what angular frequency the current in the circuit lags the voltage by pi//4 ?

A series L-C-R circuit containing a resistance of 120Omega has resonance frequency 4xx10^5rad//s . At resonance the voltages across resistance and inductance are 60V and 40V , respectively. Find the values of L and C .At what angular frequency the current in the circuit lags the voltage by pi//4 ?

An alternating emf of 110 V is applied to a circuit containing a resistance R of 80 Omega and an inductor L in series. The current is found to lag behind the supply voltage by an angle theta=tan^(1) (3//4) . Find the : If the inductor has a coefficient of self inductance of 0.1 H, what is the frequency of the applied emf ?

In an a.c. circuit consisting of resistance R and inductance L , the voltage across R is 60 volt and that across L is 80 volt.The total voltage across the combination is

An alternating emf of 110 V is applied to a circuit containing a resistance R of 80 Omega and an inductor L in series. The current is found to lag behind the supply voltage by an angle theta=tan^(1) (3//4) . Find the : Inductive reactance

An alternating emf of 110 V is applied to a circuit containing a resistance R of 80 Omega and an inductor L in series. The current is found to lag behind the supply voltage by an angle theta=tan^(1) (3//4) . Find the : Current flowing in the circuit