(A) The resonance frequency is given by $\omega_{r} = \frac{1}{\sqrt{LC}}$.In a series $R-L-C$ circuit,the net reactance is $X = X_{L} - X_{C} = \omeg

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(A) The resonance frequency is given by $\omega_{r} = \frac{1}{\sqrt{LC}}$.In a series $R-L-C$ circuit,the net reactance is $X = X_{L} - X_{C} = \omega L - \frac{1}{\omega C}$.Given that the source frequency $\omega = \frac{1}{2} \omega_{r}$.Since $\omega Therefore,the net reactance $X = X_{L} - X_{C}$ is negative.$A$ circuit with negative net reactance is capacitive in nature.

Class 12 Physics Alternating Current Half Power Frequency , Quality Factor ,Resonance in AC Circuit

Medium

In a series $R-L-C$ circuit,the frequency of the source is half of the resonance frequency. The nature of the circuit will be

A
capacitive
B
inductive
C
purely resistive
D
data insufficient

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Class 12

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Alternating Current

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Half Power Frequency , Quality Factor ,Resonance in AC Circuit

Obtain the resonant frequency and $Q$-factor of a series $LCR$ circuit with $L=3.0\; H$,$C=27\; \mu F$,and $R=7.4\; \Omega$. It is desired to improve the sharpness of the resonance of the circuit by reducing its 'full width at half maximum' by a factor of $2$. Suggest a suitable way.

Medium

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$A$ series $AC$ circuit consists of an inductor and a capacitor. The inductance and capacitance are $1 \ H$ and $25 \ \mu F$ respectively. If the current is maximum in the circuit,then the angular frequency will be:

Easy

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With a gradual increase in the frequency of an $A.C.$ supply,the impedance of an $LCR$ series circuit

EasyMHT CET 2024

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Which of the following combinations should be selected for better tuning of an $L-C-R$ circuit used for communication?

EasyKCET 2024

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$A$ series $LCR$ circuit with $L = \frac{100}{\pi} \text{ mH}$,$C = \frac{10^{-3}}{\pi} \text{ F}$,and $R = 10 \ \Omega$ is connected across an $AC$ source of $220 \text{ V}, 50 \text{ Hz}$ supply. The power factor of the circuit would be . . . . . . .

DifficultJEE MAIN 2024

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In a series $R-L-C$ circuit,the frequency of the source is half of the resonance frequency. The nature of the circuit will be

Similar Questions

Obtain the resonant frequency and $Q$-factor of a series $LCR$ circuit with $L=3.0\; H$,$C=27\; \mu F$,and $R=7.4\; \Omega$. It is desired to improve the sharpness of the resonance of the circuit by reducing its 'full width at half maximum' by a factor of $2$. Suggest a suitable way.

$A$ series $AC$ circuit consists of an inductor and a capacitor. The inductance and capacitance are $1 \ H$ and $25 \ \mu F$ respectively. If the current is maximum in the circuit,then the angular frequency will be:

With a gradual increase in the frequency of an $A.C.$ supply,the impedance of an $LCR$ series circuit

Which of the following combinations should be selected for better tuning of an $L-C-R$ circuit used for communication?

$A$ series $LCR$ circuit with $L = \frac{100}{\pi} \text{ mH}$,$C = \frac{10^{-3}}{\pi} \text{ F}$,and $R = 10 \ \Omega$ is connected across an $AC$ source of $220 \text{ V}, 50 \text{ Hz}$ supply. The power factor of the circuit would be . . . . . . .

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