In a purely inductive circuit with a DC input after a long time, the inductor behaves as which?

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Multiple Choice

In a purely inductive circuit with a DC input after a long time, the inductor behaves as which?

In steady-state direct current, an inductor behaves as a short circuit. The key relationship is V = L di/dt. When the input is DC and enough time has passed, the current through the inductor becomes constant, so di/dt = 0. With no change in current, the voltage across the inductor drops to zero, meaning it offers essentially zero opposition to the current flow. In other words, it acts like a direct wire path, and the current is determined by the rest of the circuit rather than by the inductor itself. This is different from a resistor, which would impose a voltage drop for a given current, and from a capacitor, which blocks DC once fully charged.

In a purely inductive circuit with a DC input after a long time, the inductor behaves as which?

Enhance your electrical engineering skills! Our quiz includes multiple choice questions with hints and explanations. Prepare for your interview and boost your confidence!

In a purely inductive circuit with a DC input after a long time, the inductor behaves as which?

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