(D) Given: $E_v = 15 \, V$, $I = 0.3 \, A$, $\phi = \frac{\pi}{3} \, rad$. The impedance of the $LR$ circuit is given by $Z = \frac{E_v}{I} = \frac{15

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(D) Given: $E_v = 15 \, V$, $I = 0.3 \, A$, $\phi = \frac{\pi}{3} \, rad$. The impedance of the $LR$ circuit is given by $Z = \frac{E_v}{I} = \frac{15}{0.3} = 50 \, \Omega$. The phase angle $\phi$ in an $LR$ circuit is given by $\cos \phi = \frac{R}{Z}$. Substituting the values: $\cos(\frac{\pi}{3}) = \frac{R}{50}$. Since $\cos(\frac{\pi}{3}) = \frac{1}{2}$, we have $\frac{1}{2} = \frac{R}{50}$. Therefore, $R = \frac{50}{2} = 25 \, \Omega$.

Class 12 Physics Alternating Current RL, RC and LC AC Circuits

Medium

When an inductor $L$ and a resistor $R$ in series are connected across a $15 \, V, 50 \, Hz$ a.c. supply, a current of $0.3 \, A$ flows in the circuit. The current differs in phase from the applied voltage by $(\frac{\pi}{3})^c$. The value of $R$ is:
$(\sin \frac{\pi}{6} = \cos \frac{\pi}{3} = \frac{1}{2}, \sin \frac{\pi}{3} = \cos \frac{\pi}{6} = \frac{\sqrt{3}}{2})$

MHT CET 2023 All MHT CET

A
$10 \, \Omega$
B
$15 \, \Omega$
C
$20 \, \Omega$
D
$25 \, \Omega$

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Alternating Current

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RL, RC and LC AC Circuits

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