Description Overview: This hypothesis (No. 93) presents a fundamental shift in the understanding of biological life by integrating it into the mechanics of the Solid Substrate (ASA Matrix). It argues that the current distinction between "living" and "non-living" matter is not a physical reality but a byproduct of the limitations in human temporal and sensory perception. Key Concepts: The Biological Illusion: Humanity defines life based on a very narrow window of time and movement. This document asserts that the entire substrate—including minerals, soil, and water—is inherently "alive." The perceived lack of vitality in stones or crystals is simply a result of their vibrational frequencies occurring at a much slower rate than the human lifespan can detect. Cells as Encoded Bubbles: Shifting the focus to the microscopic level, the hypothesis proposes that single-celled organisms in the ocean are not independent chemical accidents. Instead, they are "Information Bubbles" or vibrational nodes formed by the intersection of light, heat, and sound within the substrate. Their physical structures (like cilia) act as passive resonance antennas, drawing energy directly from the substrate's mechanical vibrations. The Substrate as a CPU: Soil and water are treated as a functional processing unit. The growth of plants or organisms is described as a "re-coding" process where the substrate reads the frequency of a seed and manifests it into a complex biological form. Beyond Human-Centric Science: Just as the invention of the microscope revealed a hidden world of small organisms, this hypothesis calls for new conceptual tools to recognize "Slow-Vibrational Life." It posits that existence is a unified, living field where "meat and bone" are merely high-frequency manifestations of the same universal code found in "rock and sand." Scientific Impact: By reframing life as a Mechanical Necessity rather than a biological fluke, this hypothesis provides a new framework for studying cellular energy, evolutionary mechanics, and the symbiotic relationship between planetary geology and biology
Abbas Arabi (Mon,) studied this question.