Abstract
By an electric charge model of static type, with spherical distribution of field quanta, periodically emitted, and by the Galilean relativity, there are re-obtained the Lorentz’s expressions of the speed-depending longitudinal and transversal mass of a charged particle accelerated by a quanta flux pressure, as apparent effect generated by a real decreasing of the values of longitudinal and transversal electric field, EL ~ g-3; ET ~ g-1, (·g = 1/O(1 –v2/c2), being re-obtained also the general form of the Doppler-Fizeau effect. The invariance of the Lorentz force expression indicates a relativist variation of the magnetic field induction, in the form: B ~g-1, which explains the experimental result of the Kaufmann-Bucherer experiments. It is proposed a classical expression of mass and charge variation, in the form: m = mo/a; q = qo/a, (a = (1 – v2/2c2)), which may results as real variation by a significant density of a super-fluid medium of the quantum vacuum containing etherons (mg,s = 10-60¸10-70kg) and quantons (mh = h·1/c2= 7.37x10-51kg), by an relativist etherono-quantonic vortex Gr (v) which is added to the similar vortex Gm (v) of the particle’s magnetic moment which is increased with the speed, if the particle’s spin is rectangular to its impulse. The explicative model may explain also the photon’s energy in correlation with its electromagnetic properties.
Highlights
It is known that the special Einsteinian relativity generated controversies about the validity of the light speed constancy postulate, resulted mainly from the so-called "twin paradox" generated by the Einsteinian relation of time dilation and from the Einsteinian mass variation with its speed which. Even if initially this phenomenon resulted as an observational effect generated by the limitation of the speed of light quanta used for observing the phenomenon, it induced subsequently the conclusion of a real mass increase at relativistic particle’s speed
In the context of relativist quantum mechanics, it seems that the standard model of elementary particles cannot explain the rest mass of relativistic particles without the Higgs mechanism of rest mass generation through the Higgs boson field of the quantum vacuum, there are some attempts to explain the observed phenomenology without this theoretical consideration [4]
By an electric charge model of static type with spherical distribution of field quanta and by the Galilean relativity there are re-obtained the Lorentz’s expressions of the longitudinal and transversal speed-depending mass of a charged particle accelerated by a quanta flux pressure, as apparent effect generated by a real decreasing of value of the longitudinal EL electric field, with EL ∼ γ-3 –at non-null angles: θ (r, p) > 0, (between r(δQ-q) and p = mqvq ) and with: El(vq,θ=0) = El0·γ-1(1-vq/c) for θ (r, p) ≈ 0, and of the transversal ET –electric field and BT –magnetic field: ET ∼ γ-1, BT ∼ γ-1, (γ = 1/√(1 –v2/c2))
Summary
It is known that the special Einsteinian relativity generated controversies about the validity of the light speed constancy postulate, resulted mainly from the so-called "twin paradox" generated by the Einsteinian relation of time dilation and from the Einsteinian mass variation with its speed which. Even if initially this phenomenon resulted as an observational effect generated by the limitation of the speed of light quanta used for observing the phenomenon, it induced subsequently the conclusion of a real mass increase at relativistic particle’s speed. The paper presents a phenomenological description of some relativistic effects in the dynamics of charged elementary particles, on the basis of a Galilean relativity
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