For (t geq 0), the current through a (3300-mu mathrm{H}) inductor is (i_{mathrm{L}}(t)) (=2 e^{-20,000 t} mathrm{~A}).

Question:

For $t \geq 0$, the current through a $3300-\mu \mathrm{H}$ inductor is $i_{\mathrm{L}}(t)$ $=2 e^{-20,000 t} \mathrm{~A}$. Find $v_{\mathrm{L}}(t), p_{\mathrm{L}}(t)$, and $w_{\mathrm{L}}(t)$ for $t \geq 0$. Is the inductor absorbing power, delivering power, or both?

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