23.12 Rlc series ac circuits (Page 3/9)

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Resonance in AC circuits is analogous to mechanical resonance, where resonance is defined to be a forced oscillation—in this case, forced by the voltage source—at the natural frequency of the system. The receiver in a radio is an RLC circuit that oscillates best at its $f_{0}$ . A variable capacitor is often used to adjust $f_{0}$ to receive a desired frequency and to reject others. [link] is a graph of current as a function of frequency, illustrating a resonant peak in $I_{rms}$ at $f_{0}$ . The two curves are for two different circuits, which differ only in the amount of resistance in them. The peak is lower and broader for the higher-resistance circuit. Thus the higher-resistance circuit does not resonate as strongly and would not be as selective in a radio receiver, for example.

The figure describes a graph of current I versus frequency f. Current I r m s is plotted along Y axis and frequency f is plotted along X axis. Two curves are shown. The upper curve is for small resistance and lower curve is for large resistance. Both the curves have a smooth rise and a fall. The peaks are marked for frequency f zero. The curve for smaller resistance has a higher value of peak than the curve for large resistance. — A graph of current versus frequency for two *RLC* series circuits differing only in the amount of resistance. Both have a resonance at $f_{0}$ , but that for the higher resistance is lower and broader. The driving AC voltage source has a fixed amplitude $V_{0}$ .

Calculating resonant frequency and current

For the same RLC series circuit having a $40.0 Ω$ resistor, a 3.00 mH inductor, and a $5.00 μF$ capacitor: (a) Find the resonant frequency. (b) Calculate $I_{rms}$ at resonance if $V_{rms}$ is 120 V.

Strategy

The resonant frequency is found by using the expression in $f_{0} = \frac{1}{2π \sqrt{LC}}$ . The current at that frequency is the same as if the resistor alone were in the circuit.

Solution for (a)

Entering the given values for $L$ and $C$ into the expression given for $f_{0}$ in $f_{0} = \frac{1}{2π \sqrt{LC}}$ yields

\begin{array}{l} f_{0} & = & \frac{1}{2π \sqrt{LC}} \\ = & \frac{1}{2π \sqrt{(3 . 00 \times 10^{- 3} H) (5 . 00 \times 10^{- 6} F)}} = 1 . 30 kHz . \end{array}

Discussion for (a)

We see that the resonant frequency is between 60.0 Hz and 10.0 kHz, the two frequencies chosen in earlier examples. This was to be expected, since the capacitor dominated at the low frequency and the inductor dominated at the high frequency. Their effects are the same at this intermediate frequency.

Solution for (b)

The current is given by Ohm’s law. At resonance, the two reactances are equal and cancel, so that the impedance equals the resistance alone. Thus,

I_{rms} = \frac{V_{rms}}{Z} = \frac{120 V}{40.0 Ω} = 3 . 00 A.

Discussion for (b)

At resonance, the current is greater than at the higher and lower frequencies considered for the same circuit in the preceding example.

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Power in RLC Series ac circuits

If current varies with frequency in an RLC circuit, then the power delivered to it also varies with frequency. But the average power is not simply current times voltage, as it is in purely resistive circuits. As was seen in [link] , voltage and current are out of phase in an RLC circuit. There is a phase angle $ϕ$ between the source voltage $V$ and the current $I$ , which can be found from

cos ϕ = \frac{R}{Z} .

For example, at the resonant frequency or in a purely resistive circuit $Z = R$ , so that $cos ϕ = 1$ . This implies that $ϕ = 0 º$ and that voltage and current are in phase, as expected for resistors. At other frequencies, average power is less than at resonance. This is both because voltage and current are out of phase and because $I_{rms}$ is lower. The fact that source voltage and current are out of phase affects the power delivered to the circuit. It can be shown that the average power is

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Source: OpenStax, College physics. OpenStax CNX. Jul 27, 2015 Download for free at http://legacy.cnx.org/content/col11406/1.9

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