Reality Is Relational: How Our Senses Shape the Properties of Light, Sound, and Matter

## **1. Core Theory Summary**   **Postulate:**   All measurable properties (like wavelength, color, frequency, or spatial depth) are not inherent features of physical phenomena, but rather **emerge from the specific interaction between the sensing system and the phenomenon.**   In short:   > **Reality, as perceived or measured, is always structured by the orientation, design, and limitations of the observer's sensors (whether biological or mechanical).**     ## **2. Key Implications:**   - **Wavelength, color, frequency, and even concepts like "particle" or "wave" exist *relationally*, not absolutely.** - **Measurement outcomes depend entirely on how sensors are built, oriented, and interact with phenomena.** - Different observers (species, devices) would "measure" different properties from the same external phenomenon. - There is no absolute, independent set of properties of reality without interaction.  ...

## **Abstract:**   This paper proposes that the measurable properties attributed to phenomena such as light—specifically wavelength, color, and frequency—are not intrinsic to the phenomena themselves but are emergent outcomes of the interaction between the phenomena and the structure, orientation, and limitations of the sensing system. Rather than being objective features of the external world, these properties are relational, defined by the geometry and nature of the observer's sensory apparatus. This theory is applied to light perception, color, and spatial awareness, with broader implications for the interpretation of physical measurements and reality itself.     ## **1. Introduction:**   Traditional physics treats properties like **wavelength**, **frequency**, and **energy** as inherent features of physical entities (e.g., electromagnetic waves). However, human perception systems—particularly the eyes—detect and process these properties based o...