Understanding the Q-Factor of Inductors in Resonant Systems

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Discussion Overview

The discussion revolves around the concept of the Q-factor of inductors within resonant systems, particularly in the context of LC and RLC circuits. Participants explore the definition and implications of the Q-factor, questioning its applicability to inductors in isolation.

Discussion Character

  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • One participant suggests that the Q-factor represents the transfer of energy between different forms in a resonant system, questioning how it can be defined for an inductor alone.
  • Another participant argues that the Q-factor is a measure of how closely a real inductor behaves like an ideal inductor, noting that real inductors have losses due to resistive materials.
  • A different viewpoint states that Q-factors can be defined for various components, including inductors and capacitors, when subjected to AC, indicating it measures deviation from ideal behavior.
  • A later reply references Wikipedia as a source for further information on the Q-factor of inductors.

Areas of Agreement / Disagreement

Participants express differing views on the applicability and definition of the Q-factor for inductors, indicating that the discussion remains unresolved with multiple competing perspectives.

Contextual Notes

There are assumptions regarding the ideal behavior of inductors and the nature of losses in real components that are not fully explored. The discussion also touches on the broader context of oscillation in electrical components.

Dominique
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Hi all,

For a resonant system, there is usually a transfer of energy into another kind of energy back an forth (kinetic to potential; electric to magnetic, etc). for an LC tank or an RLC circuit, we know that the energy is transferred from as an electric field between the capacitor's plate to a magnetic field around an inductor coil.

But, how come we can define a q-factor for an inductor alone?

Thank you very much for your help :)
 
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You can't.
The Q-factor is a measure of how closely a real inductor comes to behaving like an ideal inductor; an ideal inductor would have an infinite Q at all frequencies but real inductors are made from resistive wire etc so there are always losses.
 
You can define a Q-factor for many situations where oscillation occurs.

Inductors, and capacitors have a Q when are subjected to AC. It sort of is a measure of deviation from an ideal component as said.
 
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