Abstract

The concept of faster-than-light (FTL) motion challenges our fun- damental understanding of causality and relativity. This paper ex- plores a phenomenological model for velocity computation, examining the dependence of normalized velocity v/c on parameters such as the effective coupling Γx, the angle β, and terms incorporating lα and Θr. Multiple parameter configurations are investigated through numerical simulation to identify cases where velocities approach or exceed c, the speed of light. Key trends and observations are highlighted, providing a framework for future theoretical work.