Relativistic Electrodynamics: Theory and Experimental Validation

Authors

  • Dr. Rabia Hussain Institute of Space Technology (IST), Islamabad
  • Dr. Hassan Ali Lahore University of Management Sciences (LUMS), Lahore

Keywords:

Relativistic electrodynamics, Maxwell's equations, Lorentz transformations, Special relativity, Experimental validation, High-energy physics, Astrophysical observations

Abstract

Relativistic electrodynamics stands as a cornerstone in modern physics, merging classical electromagnetism with Einstein's theory of special relativity. This scholarly work delves into the theoretical underpinnings of relativistic electrodynamics and explores its experimental validation. Beginning with a comprehensive overview of Maxwell's equations and Lorentz transformations, the paper elucidates the fundamental principles governing electromagnetic phenomena in the context of relativistic physics. Through a meticulous examination of experimental evidence, including high-energy particle accelerators and astrophysical observations, the validity of relativistic electrodynamics is rigorously assessed. Insights gained from these experiments not only corroborate theoretical predictions but also offer intriguing glimpses into the behavior of matter and radiation under extreme conditions.

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Published

2021-12-31

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