In lab, you built an RLC series circuit with R = 1000 S2, L = 0.5 H and C = 0.01μF. resistance of the inductor, (a) sketch the phasor diagram then compute the the following if the amplitude of the source voltage is 2 V: b) the amplitude V₁ of the inductor voltage at resonance. c) the amplitude Ve of the capacitor voltage at resonance.

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Exercise 2:
In lab, you built an RLC series circuit with R = 1000 S2, L = 0.5 H and C = 0.01μF. Ignoring the pure
resistance of the inductor, (a) sketch the phasor diagram then compute the theoretical values of the
following if the amplitude of the source voltage is 2 V:
b) the amplitude V₁ of the inductor voltage at resonance.
c) the amplitude Vc of the capacitor voltage at resonance.
d) the ratios of V₁ and Vc to V, at resonance. Comment on the amazing result!
Transcribed Image Text:Exercise 2: In lab, you built an RLC series circuit with R = 1000 S2, L = 0.5 H and C = 0.01μF. Ignoring the pure resistance of the inductor, (a) sketch the phasor diagram then compute the theoretical values of the following if the amplitude of the source voltage is 2 V: b) the amplitude V₁ of the inductor voltage at resonance. c) the amplitude Vc of the capacitor voltage at resonance. d) the ratios of V₁ and Vc to V, at resonance. Comment on the amazing result!
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