The graphs given below depict the dependence | vedclass

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(C) The capacitive reactance is given by $X_C = \frac{1}{2\pi f C}$,which implies that $X_C \propto \frac{1}{f}$. This represents a rectangular hyperb

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$X_1$ is a capacitor and $X_2$ is an inductor

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(C) The capacitive reactance is given by $X_C = \frac{1}{2\pi f C}$,which implies that $X_C \propto \frac{1}{f}$. This represents a rectangular hyperbola,which matches the graph of $X_1$.The inductive reactance is given by $X_L = 2\pi f L$,which implies that $X_L \propto f$. This represents a straight line passing through the origin,which matches the graph of $X_2$.Therefore,$X_1$ is a capacitor and $X_2$ is an inductor.

The graphs given below depict the dependence of two reactive impedances $X_1$ and $X_2$ on the frequency of the alternating e.m.f. applied individually to them. We can then say that

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