In the circuit given below, the resonant frequency is ________________(a) \(\frac{1}{2π\sqrt{3}}\) Hz(b) \(\frac{1}{4π\sqrt{3}}\) Hz(c) \(\frac{1}{4π\sqrt{2}}\) Hz(d) \(\frac{1}{π\sqrt{2}}\) HzI had been asked this question during an interview for a job.This intriguing question originated from Advanced Problems on Magnetically Coupled Circuits topic in division Resonance & Magnetically Coupled Circuit of Network Theory

In the circuit given below, the resonant frequency is ________________

1.	In the circuit given below, the resonant frequency is ________________(a) \(\frac{1}{2π\sqrt{3}}\) Hz(b) \(\frac{1}{4π\sqrt{3}}\) Hz(c) \(\frac{1}{4π\sqrt{2}}\) Hz(d) \(\frac{1}{π\sqrt{2}}\) HzI had been asked this question during an interview for a job.This intriguing question originated from Advanced Problems on Magnetically Coupled Circuits topic in division Resonance & Magnetically Coupled Circuit of Network Theory
Answer» Correct choice is (b) \(\frac{1}{4π\sqrt{3}}\) HZ The explanation is: LEFF = L1 + L2 + 2M = 2 + 2 + 2 × 1 Or, LEFF = 6 H At resonance, ωL = \(\frac{1}{ωC}\) Or, ω = \(\frac{1}{\sqrt{L_{EFF} C}} = \frac{1}{\sqrt{12}}\) Or, I = \(\frac{1}{4π\sqrt{3}}\) Hz.

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