Nasse's Principal

Nasse’s Principle states that the direction of an induced current in a conductor depends on the change occurring in the magnetic flux passing through it. Specifically, when magnetic flux increases or decreases, the induced current produces a magnetic field that opposes the change (Lenz’s Law). The principle emphasizes that the magnitude of the induced emf (voltage) depends on how quickly the flux changes, rather than its absolute value. Essentially, Nasse’s Principle highlights that induced currents act to resist changes in magnetic flux, maintaining a form of equilibrium in electromagnetic systems.