Can an Inductor hold a charge?

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An inductor does not hold a charge when disconnected from a circuit; it requires current flow to generate a magnetic field for energy storage. In practical scenarios, an inductor can retain energy briefly due to electromagnetic inertia, but this dissipates quickly once the circuit is broken. Discharging an inductor is advised before circuit disconnection to prevent arcing, especially in larger inductors. Unlike capacitors, which can hold a charge for extended periods, inductors only store energy for fractions of a second. The discussion highlights the need for clarity on the operational characteristics of inductors in electrical circuits.
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I understand that in an ideal world, an inductor will not hold a charge (when not connected to a circuit). Ideally, there would need to be a current through the inductor to generate a B-field to store energy.

I once read, that (since this is not an ideal world), an inductor actually CAN and WILL hold a charge, rather than fully discharging when disconnected from a circuit.

I'm looking for a valid argument either way.

Thanks!
 
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It can't hold a charge, but a superconducting inductor can hold a current.

Which means that it retains it's magnetic field in the same way as a magnet holds it's field.
 
Let me explain where I'm coming from with this.
I was told I needed to discharge an inductor used in a simple LR circuit before completing the circuit.
Theoretically, this makes no sense as the inductor should not be charged/storing energy outside of a circuit.
Is there really a need to discharge an inductor prior to introducing it to a circuit?
I did read that in actuality, an inductor will store energy independently, to some degree.
Is this possible?
 
No, that makes no sense.

You might need to slowly power down a big inductor before trying to disconnect it because it may arc over if you break the circuit suddenly. (Current continues to flow because of electromagnetic inertia).

In the short term, an inductor stores energy in it's field during operation, but we're talking about fractions of a second. That energy dissipates when the circuit is broken and is gone when the current reaches zero.

Contrast the charge holding properties of a capacitor which may hold a lethal charge for several minutes or even hours if it's big enough.
 
Thanks, AJ!
This confirms my thoughts.

I did google the topic before and found a source which said an inductor will hold a charge/energy and needs to be discharged, but I am unable to locate that source, now. It was something I came across and wanted to verify the reliability of the source.
 

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