(A) At resonance,the inductive reactance $(X_L)$ is equal to the capacitive reactance $(X_C)$,i.e.,$X_L = X_C$.In an $L-C-R$ series circuit,the net im

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(A) At resonance,the inductive reactance $(X_L)$ is equal to the capacitive reactance $(X_C)$,i.e.,$X_L = X_C$.In an $L-C-R$ series circuit,the net impedance $(Z)$ is given by $Z = \sqrt{R^2 + (X_L - X_C)^2}$.At resonance,since $X_L - X_C = 0$,the impedance becomes $Z = R$.This means the circuit behaves as a purely resistive circuit.In a purely resistive circuit,the voltage and current are in the same phase.Therefore,the phase difference $(\phi)$ between the applied voltage and the current is $0$.

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

Easy

An $L-C-R$ circuit is connected to a source of $A.C.$ current. At resonance,the phase difference between the applied voltage and the current in the circuit is:

AIPMT 1994 All AIPMT

A
$0$
B
$\pi / 2$
C
$\pi$
D
$\pi / 4$

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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 $LCR$ circuit containing a resistance of $120\,\Omega$ has a resonance frequency of $4 \times 10^5\, rad\, s^{-1}$. The voltages,at resonance,across the resistance and inductance are $60\,V$ and $40\,V$ respectively. The values of $L$ and $C$ respectively are:

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For the series $LCR$ circuit shown in the figure,what is the resonance frequency and the amplitude of the current at the resonating frequency?

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An $L-C-R$ circuit is connected to a source of $A.C.$ current. At resonance,the phase difference between the applied voltage and the current in the circuit is:

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At an airport,a person is made to walk through the doorway of a metal detector,for security reasons. If she/he is carrying anything made of metal,the metal detector emits a sound. On what principle does this detector work?

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