where E is the absolute activity of the atom (i.e. blow activity additional active activity in kinematic sense), p the momentum, γ the Lorentz factor, c the acceleration of light, and β the acceleration as a atom of c. The capricious v can either be taken to be the acceleration of the atom or the accumulation acceleration of the agnate amount wave. Since the atom acceleration v < c for any atom that has accumulation (according to appropriate relativity), the appearance acceleration of amount after-effects consistently exceeds c, i.e.
v_\mathrm{p} > c, \,
and as we can see, it approaches c if the atom acceleration is in the relativistic range. The superluminal appearance acceleration does not breach appropriate relativity, as it carries no information. See the commodity on arresting acceleration for details.
v_\mathrm{p} > c, \,
and as we can see, it approaches c if the atom acceleration is in the relativistic range. The superluminal appearance acceleration does not breach appropriate relativity, as it carries no information. See the commodity on arresting acceleration for details.
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