An Operator Equation and Relativistic Alterations in the Time for Radioactive Decay

TL;DR

This paper derives a new operator equation using nonstandard physics concepts to explain relativistic changes in radioactive decay time, introducing a hypercontinuous microeffect that mimics discrete decay alterations.

Contribution

It presents a novel operator equation and applies nonstandard analysis to model relativistic effects on radioactive decay time, extending previous work on physical measure alterations.

Findings

Derived a new operator equation for decay time

Introduced hypercontinuous microeffect modeling decay

Achieved relativistic decay time alterations consistent with experiments

Abstract

In this paper, using concepts from the nonstandard physical world, the linear effect line element is derived. Previously this line element was employed to obtain, with the exception of radioactive decay, all of the experimentally verified special theory relativistic alterations in physical measures. In this paper by means of an operator equation and separation of variables, the relativistic alteration in decay time for radioactive material is obtained by applying a hypercontinuous microeffect that gives the appearance of a discrete alteration in the amount of radioactive material present.