induktance

Induktance is a property of an electrical conductor or component that opposes changes in the electric current flowing through it, due to the magnetic field that builds up around the conductor. It is quantified by the symbol L and measured in henries (H). When current changes, a voltage is induced according to Faraday’s law and Lenz’s law, producing an electromotive force that tends to oppose the change in current: e = -L di/dt for an ideal inductor.

Self-inductance refers to a single conductor or coil’s ability to induce a voltage in itself when its

Mutual inductance occurs between two coils that share magnetic flux. A changing current i2 in one coil

Inductors are built with various core materials. Air-core inductors have low losses at high frequency, while

In AC circuits, an inductor presents inductive reactance X_L = ωL, increasing with frequency and causing phase

Applications include energy storage in power supplies, filtering and tuning networks, and transformers that rely on