Fig. shows series LCR circuit with `L = 5.0 H, C = 80 mu F, R = 40 Omega` connected to a variable frequency 240 V source. Calculate
(i) the angular freuquency of the source which drives the circuit at resonance.
(ii) Current at the resonanting frequency.
(iii) the rms pot. drop across the capacitor at resonance.

Fig. shows series LCR circuit with L = 5.0 H, C = 80 mu F, R = 40 Omega connected to a variable frequency 240 V source. Calculate (i) the angular frequency of the source which drives the circuit at resonance. (ii) Current at the resonating frequency. (iii) the rms pot. drop across the capacitor at resonance.

The figure shows a series LCR circuit with L=10.0 H_(2), C=40 mu F, R=60 Omega connected to a variable frequency 240 V source. Calculate (i) The angular frequency of the source which drives the circuit at resonance. (ii) The current at the resonating frequency. (iii) The rms potential drop across the capacitor at resonance.

The figure shows a series LCR circuit with L=10.0 H_(2), C=40 mu F, R=60 Omega connected to a variable frequency 240 V source. Calculate (i) The angular frequency of the source which drives the circuit at resonance. (ii) The current at the resonating frequency. (iii) The rms potential drop across the capacitor at resonance.

A series LCR circuit with L = 4.0 H, C = 100 mu F and R = 60 Omega is connected to a variable frequency 240 V source. Calculate (i) angular frequency of the source which drives the circuit in resonance, (ii) current at the resonating frequency, (iii) rms potential drop across the inductance at resonance.

A series LER circuit with C = 80 mu F , L = 5.0 H and R = 40 Omega is connected to a variable frequency 240 V a.c. source Calculate (i) angular frequency of the source which drives the circuit in resonanace. (ii) current at the resonating frequency. (iii) rms pot. drop across the capacitor.

A series LCR circuit with L = 4.0 h, C = 100 mu F and R = 60 Omega is connected to a varialbe frequency 240 V source. Calcalate (i) angular frequency of the source which drives the circuit in resonace, (ii) current at the resonating frequency, (iii) rms potential drop across the inductro at resonance.

A series LCR circuit with L = 80 mH, C = 50 mu F and R = 60 ohm is connected to a variable frequency 220 V source. Determine (i) the source frequency which drives the circuitin resonance (iii) the quality factor Q of the circuit.

A series L-C-R circuit with R = 44 Omega, C = 8 muF and L = 50 H is connected to a variable frequency 220 V ac suppy. Calculate angular frequency, impedance and current at resonance condition.

Figure shows a series LCR circuit connected to a variable frequency 230 V source. The source frequency which drives the circuit the circuit in resonance is

Figure shows a series LCR circuit connected to a variable frequency 230 V source. The source frequency which drives the circuit the circuit in resonance is