A Numbers-Based Approach to a Free Particle's Spacetime
Date
2020
Authors
Ferber, Ruvin
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Abstract
A possibility is proposed to define the proper spacetime of a free nonzerorest-
mass m_0 particle based on the connection of its lasting proper time to an open
sequence of natural numbers counting de Broglie time periods (h/c^2)(m^(-1)_
0 ) [see R. Ferber, A Missing Link: What is Behind de Broglie's" Periodic Phenomenon"?,
Foundations of Physics Letters 9, 575 (1996)]. It is suggested to define a set of twodirectional
intervals of the particle's proper space (proper distances) following the
construction of positive and negative integers from the ordered pairs of the natural
numbers, which belong to the sequence 1, 2, ..., n defining the elapsed interval of de
Broglie time t_n. Corresponding to rational numbers, the ratios of proper distances
to their common time interval tn are referred to as proper velocities, which are
expressed by a rational fraction of c without supposing any relation to an external
system of coordinates. The particle's proper reference frame appears by resolving
the t_n over proper spatial and temporal coordinates, which are connected in a
wave-like process. The corresponding connection in energy representation takes
the form of relativistic energy-momentum relation of the respective proper quantities,
which reveals the existence, besides the rest energy term m_0c^2, of the term
attributed to particle's proper space that is mainly determined by large proper
distances and approaches with growing tn the finite value of the order of m_0c^2.
Description
Keywords
proper spacetime , de Broglie proper time, , proper time , construction of integers , proper space , energy of proper space , Research Subject Categories::NATURAL SCIENCES::Physics