Motion out of Time: Single Speed Hypothesis

This paper introduces a hypothesis that reinterprets the relationship between motion and time. We propose that all objects possess an intrinsic capacity for instantaneous motion between two points, occurring "out of time," and that observed travel time results from discrete "stops" induced by external forces or intrinsic properties such as mass. Using thought experiments involving a photon and a marble, we illustrate this concept and explore its potential implications for classical mechanics, special relativity, and quantum phenomena. This perspective suggests motion is inherently timeless, with time arising as a consequence of interruptions, offering a new lens on the fundamental dynamics spanning classical laws to quantum effects. While lacking a fully developed mathematical foundation, this framework offers a novel perspective on velocity, proper time, and quantum superposition, suggesting avenues for future theoretical and experimental investigation. We emphasize its conceptual nature and the need for rigorous development to elevate it from hypothesis to theory, inviting researchers to explore its intriguing possibilities.