At what angle are two phased magnetic fields typically sent in induction motors?

In induction motors, two phased magnetic fields are typically sent at an angle of 90 degrees. This 90-degree phase difference is crucial for creating a rotating magnetic field, which is essential for the motor's operation. When an alternating current flows through two windings placed 90 degrees apart, the resulting magnetic fields interact in such a way that they produce continuous rotation. This rotation leads to the induction of electromotive force in the rotor, allowing the motor to function effectively.

The other options do not correspond to the operational principles of induction motors. An angle of 45 degrees would not provide the necessary separation for optimal magnetic field interaction. An angle of 180 degrees would result in opposing magnetic fields, effectively canceling each other out rather than producing a rotation. A full 360 degrees would imply a complete cycle without any rotational effect, which would not be useful for motor operation. Therefore, the angle of 90 degrees is fundamental to the proper functioning of induction motors, enabling the continuous rotation that drives the motor.