Reactance and Resonance

Inductive Reactance

Inductive reactance rises with frequency and inductance.

X_L = 2πfL

An ideal inductor has impedance +jX_L, so current lags voltage by 90 degrees.

Capacitive Reactance

Capacitive reactance falls as frequency or capacitance increases.

X_C = 1 ÷ (2πfC)

An ideal capacitor has impedance -jX_C, so current leads voltage by 90 degrees.

LC Resonance

Ideal series or parallel LC relationships reach resonance when inductive and capacitive reactance magnitudes are equal.

f₀ = 1 ÷ (2π√LC)

A 10 mH inductor with a 1 µF capacitor resonates near 1.59 kHz.

Real Components

Real inductors have winding resistance, capacitance, core loss, saturation, and a self-resonant frequency. Real capacitors have ESR, ESL, leakage, tolerance, and voltage dependence.

Use component impedance curves and self-resonant-frequency data when frequency or accuracy matters.

Related Calculators