In series \( R-L-C \) circuit, \( R=100 \Omega, C=\frac{\ddot{\mathrm{u}}}{\pi} \mu F \). and \(...

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In series \( R-L-C \) circuit, \( R=100 \Omega, C=\frac{\ddot{\mathrm{u}}}{\pi} \mu F \). and \( L=\frac{100}{\pi} m H \) are connected to an ac source as shown in figure. The rms value of ac voltage is \( 220 \mathrm{~V} \) and its frequency is \( 50 \mathrm{~Hz} \). In column I, some physical quantities are mentioned, while in column II, information about quantities are provided. Match the entries of column I with the entries of column II.
\( 220 \mathrm{~V}, 50 \mathrm{~Hz} \)
\begin{tabular}{|l|l|c|l|}
\hline \multicolumn{2}{|c|}{ Column-I } & \multicolumn{2}{c|}{ Column-II } \\
\hline A. & \( \begin{array}{l}\text { Average power dissipated in } \\
\text { the resistor is }\end{array} \) & p. & Zero \\
\hline B. & \( \begin{array}{l}\text { Average power dissipated in } \\
\text { the inductor is }\end{array} \) & q. & Non-zero \\
\hline C. & \( \begin{array}{l}\text { Average power dissipated in } \\
\text { the capacitor is }\end{array} \) & r. & 163 SI units \\
\hline D. & \( \begin{array}{l}\text { The rms voltage across the } \\
\text { capacitor is }\end{array} \) & s. & \( \begin{array}{l}267.404 \text { SI } \\
\text { units }\end{array} \) \\
\hline
\end{tabular}
(1) A-(s,q); B-(r, p); C-(s); D-(p)
(2) A-(r,s); B-(q,p); C-(q); D-(r)
(3) A-(q,s); B-(p); C-(p); D-(q,r)
(4) A-(p,r); B-(q,r); C-(p); D-(s)
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