An alternating potential `E=E_(0) sin omega t` is applied to a series L-C circuit. What is the phase difference between the voltage across L and C?

Phase difference between voltages across L and C in series is

In series LCR circuit, the phase difference between voltage across L and voltage across C is

In a LCR series circuit, if the phase difference between applied voltage and current is zero then

The alternating emf of e=e_(0) sin omegat is applied across LR series circuit. The impedance and phase angle between current and voltage is

An alternating voltage V = 100 sin omega t is applied across an LCR circuit as shown. At the instant when voltage drop across source is 50 sqrt(3) volts then at that instant R = 30 Omega" "X_(L ) = 60 Omega" "X_(C ) = 20 Omega

An alternating e.m.f. of 100V (rms) is applied to a series LCR circuit. At resonance, the potential difference across the inductance and across the capacitance is 400V each. The potential difference across the resistance will be

In an AC circuit X_(C)=X_(L) . The phase differe3nce between the current and voltage will be

An Ac voltage V=V_0 sin 100t is applied to the circuit, the phase difference between current and voltage is found to be pi/4 , then .

The phase difference between voltage and current in series L-C circuit is

A series circuit consisting of a capacitor X_(C) =80 Omega and a coil with active resistance R =300 Omega and inductance X_(L) =40 omega is connected to a source of alternating voltage with amplitude V_(0) =200 V Find (a) the current amplitude in the circuit (b) the phase difference between the current and voltage (c) the amplitudes of voltage across the capacitor and the coli .