Abstract
In order to describe and simplify the properties of material systems and their interactions, a simple model, based on linear oscillators, is presented. These oscillators define the space and time framework from which the length and time properties of material systems are derived. Matter and energy are postulated as the physical result of grouping and interaction among primary oscillators. The length of the material systems and the time required for the information to travel both ways (back and forth) change with the system's motion. The derived formulas coincide with the special relativity transformations for space and time. Based on this model, the speed of light seems constant for all inertial systems. There is no contradiction with the special relativity theory in the usual case of the experimental results that imply two‐way trips of the electromagnetic signals, but differences arise when only one‐way phenomena are considered.
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