Failure of Electrodynamics Laws and Atomic Model Due to Non-existence of Magnetic Field

This article addresses several key issues with the current laws of electrodynamics, including Lorentz’s law, Faraday’s law, and the MaxwellAmp`ere law, by highlighting various scenarios where these laws fail to describe physical phenomena. It also presents a case where the condition ∇ · ⃗B ̸= 0 occurs, challenging the standard belief that magnetic fields always have zero divergence. The article argues that magnetic fields, as traditionally understood, do not actually exist. Instead, effects thought to be caused by magnetic fields are simply due to electric fields (no need to include special theory of relativity). A new concept introduced in the article is the “drag property of the electric field,” a previously unknown characteristic that creates the illusion of a magnetic field. Using this drag property, the article derives a set of revised electrodynamic laws that consistently apply across all situations. Additionally, it addresses the failure of the traditional atomic model and suggests a new approach. The article also challenges the idea that space is empty, proposing that space is filled with something rather than being a true vacuum. This research offers a fresh perspective on both electromagnetic theory and the nature of space.