An `LCR` circuit has `L = 10 mL, R = 3 Omega`, and `C = 1 mu F` connected in series to a source of `15 cos omega t` volt. The current amplitude at a frequency that is 10% lower then the resonant frequency 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.

An LCR circuit has L = 10 mH . R = 3 ohm and C = 1 mu F connected in series to a source is 15 cos omega t volt. What is average power dissipated per cycle at a frequency that is 10% lower than the resonant requency?

An LCR circuit has L = 10 mH, R = 3 Omega and C = 1 mu F connected in series to a source of 15 copy cos omega t .volt. Calculate the current ampliuted and the average power dissipated per cycle at a frequency 10% lower than the resonance frequency.

An LCR circuit has L=10 mH,R=150 Omega and C=1 muF connacted in series to a source of 150sqrt2 cos omegat volt. At a frequency that is 50% of the resonant frequency.calculate the average power (in watt) dissipated per cycle.

Current through an AC series L-C-R circuit is 2 A if operated at resonance frequency , and 1 A if operated at 50% less than resonant frequency . The current (in A) if the frequency is 100% more than the resonant frequency , is

An LCR series circuit with L = 100 mH, C = 100 muF, R = 120 Omega is connected to an AC source of emf epsilon = (30 V) sin (100s^(-1))t . Find the impedane, the peak current and the resonant frequency of the circuit.

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

In R-L-C series circuit, we have same current at angular frequencies omega_(1) and omega_(2) . The resonant frequency of circuit is