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In this essay, you will discover the basic principles of Gsn Raju Electromagnetic Field Theory. You will also find a brief look at how it has been modified, and a few applications of the modified GSN theory. It starts off with a brief introduction to electromagnetism and the theory of relativity before going into more detail on what electrodynamics is, how it can be used to model physical systems such as those in Earth's atmosphere and oceans, as well as give insight on how electric fields relate to such processes as charging capacitors or heating metals inside electric furnaces. Experiments relating to these concepts are also considered throughout the article so that readers may see an application of these theories in their own lives. Gsn Raju's electromagnetic field theory starts off with a brief introduction to electromagnetism and the history behind the Theory of Relativity. It then goes into more detail about what electrodynamics is, how it can be used to model physical systems such as those in Earth's atmosphere and oceans, as well as give insight on how electric fields relate to such processes as charging capacitors or heating metals inside electric furnaces. Experiments relating to these concepts are also considered throughout the article so that readers may see an application of these theories in their own lives. *Introduction: The definition of Electromagnetic Field depends on whether we view the Universe from different scales or not. Classical electrodynamics (also called by many as the macroscopic scale) defines an electromagnetic field to be an object that has electric and magnetic properties. On the other hand, quantum electrodynamics (QED) describes this field as a set of statistically produced particle-like excitations that can move or vibrate. When we view things on scales much smaller than the size of an atom, we see there to be no particles...only fields! For this reason, physicists use quantum electrodynamics instead of classical electrodynamics to address the workings of subatomic mechanics. Classical Electromagnetic Theory: The idea behind classical electromagnetic theory is that all electric and magnetic forces are mediated by exchange particles called photons. This is why it is called "classical" electromagnetism. This theory is well-accepted because of the agreement between the results obtained from this theory and those found by experimentation. The two main principles of classical electromagnetism are: 1.) Maxwell's Equations: Maxwell wrote four equations that were eventually found to describe electricity and magnetism. These equations can be used to describe many phenomena, including light! Maxwell's Equations are as follows: Hence, using these two equations we see that magnetic fields can be generated through acceleration of charges, or by changing electric fields. 2.) Lorentz Force Law: The force that is exerted on a charged particle as a result of an electric field can be explained through the Lorentz Force Law. This law states that the force F = q(E + v × B). In this equation, q denotes the charge, E is the magnitude of the electric field, and B is the magnitude of magnetic field. Quantum Electrodynamics: QED looks at electromagnetic theory from a very different angle compared to classical electrodynamics. One main difference between the two theories is that QED does not include a picture or model of individual particles that carry forces or energies. cfa1e77820