From a somewhat broader point of view, in all cases of electromagnetic induction, without any exception, whenever a variation in the concatenated flux occurs, a voltage must be induced, causing it to automatically tend to establish a current in a direction, which will produce a field as opposed to the variation of the flow that concatenates the turns of the circuit. In complement to the one that the scholar Michael Faraday demonstrated, the law of Lenz appeared, founded by the physicist Heinrich E. Lenz.
The scientist was able to prove that the induced electric current had the capacity to produce effects opposite to its causes. Thus, Lenz established that the direction of the induced electric current Baldor VEM3611 was such that the magnetic field generated by it would oppose the variation of the magnetic field that generated it. Thus, it has been proven that this formulation of Lenz’s law is basically a cause and an effect that opposes the cause. This involved cause is nothing more than the variation of the flow that cuts the conductor. The involved effect referred to is a current, due to the induced voltage, that the field opposes to the cause.