Faraday's law states that the electric potential induced in the coil of the magnetic field's spontaneous effect is directly relative to the magnetic field of the moving magnet. And in reverse is comparative to the point in time of the oscillation, in order to produce a constant frequency of sound waves at high amplitude frequencies. It is essential that the amplitude frequencies is reduced, therefore, allowing for low frequencies to produce an increase in its motions to be re-converted into sound. Faraday's law on induction and magnetisms which established some significant characteristics into the science of the phonographic records. What that this is saying is; the electrical signals have to be amplified at exceptionally high frequencies and the attenuations at very low frequencies for receptive listening. It is essential that the amplitude frequencies is reduced. Amplitude frequencies reduced thus allowing for low frequencies to produce an increase in its motions to be re-converted into sound. Faraday's law on induction and magnetisms had established some significant characteristics into the science of the phonographic records. What that is saying is; the electrical signals have to be amplified at exceptionally high frequencies, and the attenuations at very low frequencies for receptive listening. Let us say for argument sake that two frequencies within an audio spectrum of 60Hz for the bass and 20kHz given for the treble: example. Here we can see how effective Faraday's law is: as the wavelength is inversely proportional to the frequency. Therefore, the amplitude output creates a non-linear bearing against the frequency allowing for the size of the undulations to equal all frequencies. ........ | 
