Reflection on Relativity of Space-Time-Symmetry

The integrity of the Universe thesis reflects the most generalized form of the relativity principle (RP), meaning that every part of Nature exists only in relation to the rest of the world. Thus, a coherent understanding of the world should be reflected in the congruence of ideas. The statements above agree with the biological principle that no part of the human body is unrelated to the coherence of the organism's function. The advances in modern science confirm the widely accepted assumption that space-time symmetry and relativity (STSR) are the common fundamental attributes (forms of existence) of elementary particles, galaxies, and biological objects. Symmetry is movement, dimension, and scale-dependent, i.e., not an absolute entity. The convincing example is the differential behavior of time (symmetry/asymmetry) in the microscopic and macroscopic range of space domain, pointing to the arrow of time effects relativity. Our consideration focuses on the impact of universal space-time topology, curvature and handedness (time arrow, chirality, or mirror reflection asymmetry) observed within the physical and biological matter. Galileo Galilei was the first among scientists to capture the phenomenon of relativity. However, his intuition did not explicitly associate the notion of symmetry with RP. Generalized interpretation of RP links space-time symmetry and relativity with quantum physics and biology. The limitations of sensory perception and intuitive understanding of the external world are gradually conquered by advances in the language of space-time geometry and the integration of human and artificial intelligence (AI).