(B) In an $LCR$ circuit,the current is maximum at resonance.At resonance,the angular frequency $\omega$ is given by $\omega = \frac{1}{\sqrt{LC}}$.Fro

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(B) In an $LCR$ circuit,the current is maximum at resonance.At resonance,the angular frequency $\omega$ is given by $\omega = \frac{1}{\sqrt{LC}}$.From the given voltage equation $V = 5 \sin(100t)$,we have $\omega = 100 \text{ rad/s}$.Given $L = 2 \text{ H}$,we can substitute these values into the resonance formula:$100 = \frac{1}{\sqrt{2 \times C}}$Squaring both sides:$10000 = \frac{1}{2C}$$C = \frac{1}{2 \times 10000} = \frac{1}{20000} \text{ F}$$C = 0.5 \times 10^{-4} \text{ F} = 50 \times 10^{-6} \text{ F} = 50 \mu\text{F}$.

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

Medium

Using a variable-frequency a.c. voltage source,the maximum current measured in the given $LCR$ circuit is $50 \text{ mA}$ for $V = 5 \sin(100t)$. The values of $L$ and $R$ are shown in the figure. The capacitance of the capacitor $(C)$ used is . . . . . . $\mu\text{F}$.

JEE MAIN 2026 All JEE MAIN

A
$25$
B
$50$
C
$75$
D
$100$

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Alternating Current

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Half Power Frequency , Quality Factor ,Resonance in AC Circuit

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$A$ series resonant circuit consists of an inductor '$L$' of negligible resistance and a capacitor '$C$' which produces a resonant frequency '$f$'. If '$L$' is changed to $3L$ and '$C$' is changed to $6C$,the new resonant frequency will become:

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In a non-resonant $LCR$ series circuit,what will be the nature of the circuit for frequencies higher than the resonance frequency?

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The power factor of an $LCR$ circuit at resonance is:

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In the circuit shown in the figure, the ratio of the quality factor $(Q)$ to the bandwidth $(\Delta \omega)$ is $.............$ s.

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The resonant frequency of a series $LCR$ circuit is $f_R$. The circuit is connected to a sinusoidally alternating e.m.f. of frequency $2 f_R$. The inductive reactance becomes $X_{L_1}$ and capacitive reactance becomes $X_{C_1}$ after changing the frequency. $X_{C_1}$ is equal to:

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Using a variable-frequency a.c. voltage source,the maximum current measured in the given $LCR$ circuit is $50 \text{ mA}$ for $V = 5 \sin(100t)$. The values of $L$ and $R$ are shown in the figure. The capacitance of the capacitor $(C)$ used is . . . . . . $\mu\text{F}$.

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$A$ series resonant circuit consists of an inductor '$L$' of negligible resistance and a capacitor '$C$' which produces a resonant frequency '$f$'. If '$L$' is changed to $3L$ and '$C$' is changed to $6C$,the new resonant frequency will become:

In a non-resonant $LCR$ series circuit,what will be the nature of the circuit for frequencies higher than the resonance frequency?

The power factor of an $LCR$ circuit at resonance is:

In the circuit shown in the figure, the ratio of the quality factor $(Q)$ to the bandwidth $(\Delta \omega)$ is $.............$ s.

The resonant frequency of a series $LCR$ circuit is $f_R$. The circuit is connected to a sinusoidally alternating e.m.f. of frequency $2 f_R$. The inductive reactance becomes $X_{L_1}$ and capacitive reactance becomes $X_{C_1}$ after changing the frequency. $X_{C_1}$ is equal to:

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