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Berlin Brandenburg

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  • 1
    Language: English
    In: Physics Essays, Dec, 2010, Vol.23(4), p.574(5)
    Description: Classical quantum mechanics (CQM) postulates that all matter is composed of particles of absolute size and shape in three dimensions that obey Newton's laws and Maxwell's equations at all scales. It has been shown that this provides excellent quantitative agreement with observation for a host of measured atomic phenomenon including ionization energies of virtually all atoms, magnetic behavior, excitation energies, and even scattering behavior. Moreover, there are no data that are clearly inconsistent with the predictions of this new quantum model; thus, it remains a valid theory. In the scientific spirit of discovery, we explore the consequences of the CQM model (in fact, the consequence of assuming any "extended three dimensional" model of elementary particles) for the fields of extended particles. It is shown that energy conservation, a requirement of any theory that purports to be consistent with Newtonian physics, requires that the static fields of all charged particles never disappear but only "appear to disappear" because of the masking by fields of oppositely charged (or spinning) particles. Moreover, the field of each charged particle must extend to the edge of the universe. Finally, it is logical to conclude that each charged particle material core and its associated static field are the "equivalent reference frames" of special relativity. [DOI: 10.4006/1.3486356] La Mecanique Quantique Classique (MQC) postule que toute matiere est composee de particules tridimensionnelles, possedant une taille absolue et une forme qui obeissent, A toutes les echelles, aux lois de Newton ainsi qu'aux equations de Maxwell. Il a ete prouve que ceci est en excellent accord quantitatif avec de nombreux phenomenes atomiques, incluant les energies d'ionisation et d'excitation de tout atome, leur comportement magnetique, et meme les mecanismes de diffusion qui leur sont associes. De plus, il n'existe pas de donnees qui contredisent clairement les predictions de ce nouveau modele quantique, ce qui prouve la validite de la theorie. A la recherche de nouvelles decouvertes scientifiques, nous avons explore les consequences du modele MQC (et en particulier les consequences de l'extrapolation tridimensionnelle du modele pour chaque particule elementaire) dans le domaine des particules etendues. Il est montre que la conservation d'energie, requise pour toute theorie consistante avec la physique newtonienne, implique que les champs statiques de toutes les particules chargees ne disparaissent jamais, mais "semble disparaitre" suite A un masquage du aux champs des particules de charges (ou de spin) opposees. En outre, le champ de chaque particule doit s'etendre jusqu'aux confins de l'univers. Finalement, il est naturel de conclure que chaque element materiel et son champ statique associe sont les "cadres de reference equivalent" de la Relativite Generale.
    Keywords: Quantum Mechanics -- Research ; Classical Mechanics -- Research ; Particle Physics -- Research
    ISSN: 0836-1398
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