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Volume 29: Pages 313-315, 2016
Derivation of mass-energy equivalence using Newtonian mechanics as an alternative to Einstein’s relativity postulates
Cyrus Master Khodabakhsha)
4 Hood Avenue, Rodd Point, New South Wales 2046, Australia
This paper endeavors to show that, contrary to current prevailing thought, Newtonian mechanics does not break down in the region of very high speeds if correctly applied. The possibility of the existence of a medium in the so-called free or empty space is discussed, and the resistance of this medium to the motion of elementary particles is determined. Newtonian mechanics is used to calculate the energy required to accelerate a particle to high velocities and to derive E=mc2.
Cet article tente de montrer que contrairement à la pensée couramment répandue, la mécanique Newtonienne n’échoue pas quand elle est appliquée correctement aux particules à haute vitesse. La possibilité de l’existence d’un medium appelé espace vide est discutée, et la résistance de ce medium aux mouvements des particules élémentaires est déterminée. La mécanique Newtonienne nous a servi pour calculer l’énergie nécessaire pour accélérer une particule à haute vitesse, ainsi que pour dériver E=mc.
Key words: Free Space; Empty Space; Ether; Aether; Mass-Energy Equivalence Newton and E=mc; Newtonian Mechanics versus Einstein’s Relativity; Resistance to Acceleration in Free Space; Kinetic Energy.
Received: February 16, 2016; Accepted: June 11, 2016; Published Online: July 22, 2016
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