In an AC induction motor, what does the stator produce?

In an AC induction motor, the stator produces a rotating magnetic field. This is a fundamental principle of how AC motors operate. The stator is composed of windings that are supplied with alternating current, which creates a magnetic field that rotates around the stator. This rotating magnetic field is crucial as it interacts with the rotor to induce motion.

The interaction occurs because the rotor typically consists of conductive material, and as the rotating magnetic field sweeps past the rotor, it induces an electromotive force (EMF) that causes current to flow in the rotor. This, in turn, creates its own magnetic field that interacts with the stator's field, leading to the rotation of the rotor.

This mechanism of producing a rotating magnetic field is essential to the functionality and efficiency of AC induction motors, distinguishing them from other types of motors that might use fixed or pulsing magnetic fields. It also eliminates the need for brushes and commutators, which are found in other motor types, leading to a more durable and reliable design.