TITLE:
The Relativistic Mechanic Theory of the String
AUTHORS:
Mohamed Salem
KEYWORDS:
String Theory, Tachyon, Superluminal Motion, Special Relativity, Elementary Particles
JOURNAL NAME:
Journal of Modern Physics,
Vol.6 No.4,
March
17,
2015
ABSTRACT: In this
article, a novel speculative method is used to derive the relativistic mechanic
that governs the motion of the vibrating string within the compactified-dimensions
spacetime. This mechanic claims that the relativistic mechanic of the special
relativity should be only valid for the motion within the familiar
four-dimensional spacetime. However, our novel mechanic is valid for the motion
within the compactified-dimensions spacetime predicted by the string theory.
The equations of this new mechanic show that the vibrating string can move
within the compactified dimensions in a speed that is faster than light. It is
also shown that this new relativistic mechanic goes to the classical Newtonian
mechanic whenever the speed of the vibrating string is much less than the speed
of light. Since the proposed mechanic does not prohibit the existence faster
than light motion, it may uncover some of the mysteries regarding the string
theory, such as the existence of tachyon and time travel. The main goal of this
paper is to show that the motion within the compactified-dimensions spacetime
obeys a different relativistic mechanic that will provide a startling and
revolutionary perspective on the universe and answer some of the fundamental
questions posed in the modern physics.