Abstract
This paper presents the first theoretical framework that defines the electric infinitesimal structure model of electromagnetic waves. This model represents the electromagnetic fields by electric field components only. These components have a specific spatial arrangement that is responsible for exerting both the magnetic force and the electric force applied by the electromagnetic waves. There is no existing work that specifies this infinitesimal purely electric structure. Previous work considered electromagnetic waves to be formed by two types of fields, despite the belief that the magnetic field is an electric field in its origin. The model has been built by analyzing the changes in the flow of electric charges producing changing currents. These charges emit electric fields with disturbances spreading in the space to reflect the changes of charges position and speed inside current elements. These disturbances in the electric fields contain discontinuity points reflecting these changes. Applying Gauss's law at these discontinuity points indicates the existence of electric charges, referred to as discontinuity charges. These spreading discontinuity charges electrically interact with static charges and current elements present at the crossing points in the space. This interaction produces forces on these charges and elements that are equivalent in magnitude and direction to the observed electric force and magnetic force exerted by electromagnetic waves. The relationship between these forces has been analyzed to obtain the formulas that govern them. These formulas are found to be exactly equivalent to Maxwell's equations proving the validity of the proposed model. Moreover, this model is in alignment with the experiments of pair production phenomena, i.e., photons split to electron and positron, which indicate that photons may have embedded charges inside them. This work is important to help scientists in modeling the physical reality of photons and in better understanding the deeper physical process behind electromagnetic wave interactions.
Highlights
The classical electromagnetic wave theory is one of the greatest achievements of humanity
The first electric model for the infinitesimal structure of electromagnetic waves is proposed. This model consists of electric field components only. These components have a specific spatial arrangement that is responsible for exerting both the magnetic force and the electric force applied by the electromagnetic waves
This paper presented the first electric model for the electromagnetic wave fields, i.e., the electric field and the magnetic field, that is fully consistent with the electromagnetic theory
Summary
The classical electromagnetic wave theory is one of the greatest achievements of humanity. It provides a framework to unite electricity, magnetism, and light phenomena, as well as, starting a revolution on the mechanical way of thinking of transporting energy through mediums [1]. The development of this revolutionary theory started when Faraday discovered the electromagnetic induction, and it was fulfilled when electromagnetic waves were successfully generated by Hertz [2]. It was observed that the induced current is in a direction that generates a magnetic field opposes the changing magnetic flux linking the circuit This observation is known as Lenz’s law with respect to the physicist who formulated it.
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