Why does resonance amplitude for inductors increased with inductor values and vice versa for the capacitors.?
Resonance amplitude in inductors increases with inductor values due to the phenomenon of ferroresonance, where nonlinear inductances with ferromagnetic cores can generate harmonic components, leading to resonance in electrical circuits . Additionally, inductors with movable ferromagnetic cores can exhibit unusual voltage increases during discharge, possibly involving positive electromotive forces . On the other hand, capacitors exhibit an opposite effect, where resonance amplitude decreases with capacitor values in linear circuits . This difference arises from the distinct behaviors of inductors and capacitors in electrical systems, with inductors contributing to resonance phenomena through nonlinear effects while capacitors maintain a linear response in resonance circuits.
Answers from top 5 papers
Papers (5) | Insight |
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The resonance amplitude for inductors increases with higher inductor values due to the inductor and capacitor resonating, enabling rapid current switching as described in the inductive current switching system with resonance. | |
8 Citations | The unconventional magnetic configuration in the LCR circuit led to an unexpected increase in recharge voltage, suggesting a possible involvement of positive electromotive force, contrary to mathematical simulations. |
Resonance amplitude increases with inductor values due to ferroresonance in circuits with nonlinear inductances, while it decreases with capacitor values in linear circuits due to specific resonance conditions. | |
Resonance amplitude increases with inductor values due to ferroresonance in power systems. Capacitors exhibit the opposite effect, leading to varying resonance amplitudes based on component values. | |
The resonance amplitude for inductors increases with inductor values due to the unique coil configuration with non-coinciding coils, enhancing inductance, as discussed in the paper. |