The Onnon Theory

The Theory of Onnon: A Multidimensional Framework for the Structure of the Universe

Introduction

The Theory of Onnon is a philosophical and ontological framework that seeks to explain the fundamental structure of the universe, the nature of matter, and the dynamics of dimensionality. Initially conceived as a conceptual-spatial intelligence development tool for young learners, it has since evolved into a comprehensive theoretical model addressing key phenomena in modern physics—including quantum uncertainty, entanglement, cosmic expansion, and the possibility of time travel.

At its core, the Theory of Onnon posits that the universe is infinitely dimensional, and all observable reality can be reduced to the dynamic behavior of a single, fundamental particle. To properly engage with this theory, one must first establish a rigorous understanding of dimensionality and its hierarchical structure.

Foundational Concepts of Dimensionality

In classical geometry, dimensions are defined as follows:

• A point is dimensionless (0D).

• A line is one-dimensional (1D).

• A plane is two-dimensional (2D).

• A prism (or volumetric object) is three-dimensional (3D).

• A hyperprism (or tesseract) represents four-dimensional space (4D).

While humans perceive only three spatial dimensions, higher dimensions can be mathematically modeled and indirectly represented through projections.

The Onnon Hypothesis: Infinite Dimensionality and the Structure of Reality

The Theory of Onnon introduces a radical reconceptualization of dimensionality through the following postulate:

Postulate 1 (Revised):
*The universe is infinitely dimensional, where each dimension (n) is defined by the interaction of objects in the next higher dimension (n+1). Matter in a given dimension arises from the relational dynamics—both surfaces and interstitial spaces—of objects in the superior dimension.*

This can be systematically expressed as:

1. A 1D universe is not merely a line but rather the sum of surfaces and voids between 2D objects. From a 1D perspective, 2D objects appear to possess surfaces that do not intrinsically exist in their own dimensional plane. Thus, the 1D universe is an emergent property of 2D spatial relationships.

2. A 2D universe is constituted by the boundaries and interactions of 3D objects. What we perceive as 2D matter is, in fact, a manifestation of the gaps and interfaces between three-dimensional forms.

3. A 3D universe is generated by the topological features of 4D objects. The particles and structures we observe in three-dimensional space are the result of higher-dimensional motion and displacement.

4. This recursive logic extends ad infinitum:

   • An n-dimensional universe is derived from the structural and dynamic properties of (n+1)-dimensional objects.

Implications for Physics and Cosmology

This framework suggests that:

• Quantum phenomena (e.g., entanglement, wavefunction collapse) may arise from interactions in higher dimensions.

• Cosmic expansion could be a perceptual effect of dimensional unfolding.

• Time and causality might be emergent properties of dimensional transitions rather than fundamental realities.

Conclusion

The Theory of Onnon provides a novel ontological model in which dimensionality is not static but relational. By framing each dimension as an emergent consequence of higher-dimensional interactions, it offers a unified perspective on matter, space, and the fabric of reality itself. Further theoretical and mathematical refinement is necessary to explore its compatibility with established physical theories…