Abstract

Poster - Splinter General   (Kuppelsaal / virtual plenum)

Ten Universal Kinematic Properties of Objects from Photons to Galaxies in the Universe

Gh. Saleh
Saleh Research Centre

Understanding the motion of physical objects across vastly different scales—from elementary particles like photons to immense structures such as galaxies—is fundamental to unifying physical laws. This study identifies and formulates ten universal kinematic properties shared by all objects in the Universe, regardless of their scale. These properties include: persistent motion; rotation about a central axis; constant angular velocity; movement along closed curved trajectories of fixed length; constant average tangential speed; invariant rest mass; helicoidal motion characterized by multiple intertwined paths; constant kinetic energy; and the adherence to uniform physical laws enabling calculation of all dimensional parameters. This comprehensive framework emphasizes the self-similarity and scalability of motion laws throughout nature and supports the notion of a deeply interconnected cosmic hierarchy. Such insights provide a novel foundation for advancing theoretical models that bridge quantum mechanics, classical mechanics, and cosmology.