Model for Internal Characteristics of EM Wave Applied to Double Slit and Hydrogen Orbital

A model for EM waves is presented based on the internal characteristics of the wave. Wave frequency is modeled as sinusoidally changing discrete increments for a total number of Planck states in a given EM energy. Each increment consists of a different number of Planck states, theorized to be the minimal energyXtime fundamental increment of change. The model provides insight into the characteristics of EM energy. As frequency increases, a larger number of Planck state and increment changes result in what is externally observed as a higher energy. This model is applied to double slit systems where the observed probability distribution is due to all possible binary interactions (Born’s rule) between the number of Planck states in each wave increment. Possibilities are limited by the possible slit-environmental interactions in a system where each possibility is considered one bit of information, a Boltzmann state. A 3-D model for interference is applied to the probability distribution for the electron location relative to the nucleus.