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 alternating voltage is applied to a series L-C-R circiut. If the current leads the voltage by 45^(@) , then

In an A.C. circuit, a resistance R=40 Omega and an inductance L are connected in series. If the phase angle between voltage and current is 45^(@) , then the value of the inductive reactance will be

Alternating voltage V = 400 sin ( 500 pi t ) is applied across a resistance of 0.2 kOmega . The r.m.s. value of current will be equal to

Alternating voltage V = 400 sin ( 500 pi t ) is applied across a resistance of 0.2 kOmega . The r.m.s. value of current will be equal to

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

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 a.c. Voltage is applied to a resistance R=30 Omega and an inductor L in series. If the inductive reactance is also 30 Omega , the phase difference between the applied voltage and the current in the circuit is