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Full-Text Articles in Physical Sciences and Mathematics
17 Maxwell Equations, Charles G. Torre
17 Maxwell Equations, Charles G. Torre
Foundations of Wave Phenomena
With our brief review of vector analysis out of the way, we can now discuss the Maxwell equations. We use the Gaussian system of electromagnetic units and let c denote the speed of light in vacuum. The Maxwell equations are differential equations for the electric field E(r, t), and the magnetic field B(r, t), which are defined by the force they exert on a test charge q at the point r at time t. This force is defined by the Lorentz force law.
18 The Electromagnetic Wave Equation, Charles G. Torre
18 The Electromagnetic Wave Equation, Charles G. Torre
Foundations of Wave Phenomena
Let us now see how the Maxwell equations (17.2)–(17.5) predict the existence of electromagnetic waves. For simplicity we will consider a region of space and time in which there are no sources (i.e., we consider the propagation of electromagnetic waves in vacuum). Thus we set p = 0 = j in our space-time region of interest. Now all the Maxwell equations are linear, homogeneous.
19 Electromagnetic Energy, Charles G. Torre
19 Electromagnetic Energy, Charles G. Torre
Foundations of Wave Phenomena
In a previous physics course you should have encountered the interesting notion that the electromagnetic field carries energy and momentum. If you have ever been sunburned, you have experimental confirmation of this fact! We are now in a position to explore this idea quantitatively. In physics, the notions of energy and momentum are of interest mainly because they are conserved quantities. We can uncover the energy and momentum quantities associated with the electromagnetic field by searching for conservation laws. As before, such conservation laws will appear embodied in a continuity equation. Thus we begin by investigating a continuity equation for …