If the potential difference across a coil is low, what will happen?

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Prepare for the CWEA Electrical/Instrumentation Level 3 Test with flashcards and multiple-choice questions. Each question is paired with detailed hints and explanations. Ensure you're ready for your exam!

Multiple Choice

If the potential difference across a coil is low, what will happen?

Explanation:
When the voltage across a coil is low, the current through it is also small (Ohm’s law: I = V/R). Heat in the coil comes from power dissipated, P = I^2R (or P = V^2/R). If I is small, P is small, so the coil doesn’t heat up noticeably. The magnetic field the coil produces is proportional to the current, so with a small current you’d also get a weak magnetic effect. In short, low voltage yields little current, little power dissipation, and thus little heating.

When the voltage across a coil is low, the current through it is also small (Ohm’s law: I = V/R). Heat in the coil comes from power dissipated, P = I^2R (or P = V^2/R). If I is small, P is small, so the coil doesn’t heat up noticeably. The magnetic field the coil produces is proportional to the current, so with a small current you’d also get a weak magnetic effect. In short, low voltage yields little current, little power dissipation, and thus little heating.

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