In that petty example alone, you'd be breaking Maxwell's laws of electromagnetism, energy conservation and so on.)Īs pointed out by Ocelo7, the Lorentz force includes a velocity dependence. (For example, if you kept a magnet close to a circuit, then there would be a electric field created and hence a current flow, out of nowhere. Otherwise, every charged body kept in a magnetic field would experience a magnetic force and basically a lot of stuff would go out of control. Magnetic field is not a type of electric field, though the 2 are intimately related. Because the theory is relativistically covariant, they have to be. This is all written in much more mathematical terms as a consequence of the Maxwell Equations,$$\begin = v^2 / c^2$ and $c^2 = 1/(\mu_0 \epsilon_0)$ so we are seeing that the terms are identical (because $I = \lambda v$) except for the $\gamma$ up front, which again has to do with time dilation. These terms won't mean so much to you, but we say that the electric field is the (negative) gradient of the scalar potential field and the magnetic field is the (positive) curl of the vector potential field $\vec A$. So in terms of the way that they interrelate with relativity, both electric and magnetic fields are derivatives of a "scalar potential" (or voltage) and a vector potential. If you haven't seen any of this stuff, it may look really scary! But I want to give you the impression that after you've had the right undergraduate-college course or two, this stuff is pretty easy to just write down in a Stack Overflow comment. Mozumder Ionization and Secondary Electron Production by Fast Charged Particles, Modelling of Physicochemical and Chemical Processes in the Interactions of Fast Charged Particles with Matter, Interaction of Photons with Molecules - Photoabsorption, Photoionozation and Photodissociation Cross Sections, Reactions of Low Energy Electrons, Ions, Excited Atoms and Molecules and Free Radicals in the Gas Phase as Studied by Pulse Radiolysis Methods, Electron and Anion Solvation, Electrons in Nonpolar Liquids, Low-Energy Electron Interactions with Atomic and Molecular Solids, The Radiation Chemistry of Liquid Water, Radiation Chemistry of Liquid Alkanes, LET-Effects in Radiation Chemistry, Reactions Initiated by Ionizing Radiation in Biological Systems - The Critical Target is DNA, Photon Induced Biological Consquences, Track Structure - Studies of Biological Systems, Microdosimetry and Its Medical Applications, Charged Particle and Photon Interactions in Nanocolloids and Photographic Systems Studies, Applications of Radiation-Chemical Reactions to the Construction of Functional Organic Materials, Applications to Reaction Mechanism Studies of Organic Systems, Applications of Radiation Chemistry to Nuclear Technology, Electron-Beam Application to Flue Gas Treatment, Ion-Beam Therapy.You haven't quite told me what level you're at, so let me show you all of the mathematics. Interaction of Fast Charged Particles with Matter, A.
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