Core Concepts
This page outlines the foundational ideas behind the research in simplified form, with links to the fuller technical papers and essays.
The aim is not to replace the research, but to provide a clearer conceptual map of the framework as a whole — a way of seeing how the different papers connect to one another.
The Non-Viscous Field
At the heart of the framework is the idea that space is not empty, but a continuous medium with intrinsic properties. Matter, force, and radiation are not separate substances acting across a void, but behaviours that emerge within this field.
Related reading: The Non-Viscous Ether
Matter as Condensed Energy
Matter is interpreted not as a collection of disconnected particles, but as stable configurations of energy within the field. Atoms, in this view, are persistent patterns — localised structures that remain coherent because they represent stable energetic arrangements.
Related reading: Hydrodynamic Quantum Gravity – Theoretical Foundations
Gravity as Pressure or Wave Behaviour
Rather than treating gravity as a mysterious force acting at a distance, the framework explores whether gravitational effects can be understood as pressure gradients, wave interactions, or medium-based dynamics within a continuous field.
Related reading: Gravity as Acoustic Radiation Pressure | Gravity as Pressure Gradient
Periodicity as Harmonic Structure
The periodic table is treated not merely as a classification system, but as a map of recurring stable configurations. The repeating structure of the elements reflects deeper constraints on what kinds of energetic arrangements can persist and recur.
Related reading: The Spiral Periodic Table | The Spiral Periodic Table (Preprint)
Emergence Through Stability
Across the framework, complexity is understood as something that emerges when energy settles into increasingly stable forms. This applies not only to matter, but to larger physical structures and recurring patterns throughout the natural world.
Related reading: HQG Convergent Mathematical Foundations
Electricity as Field Behaviour
Electricity is approached not as a flow of tiny particles alone, but as a field phenomenon involving energy transfer, equilibrium, and organised behaviour within conductive systems. This line of thought connects the electrical papers to the broader medium-based interpretation of physics.
Related reading: A New Understanding of Electricity, Gravity, and the Energy of Space
How These Ideas Connect
Taken together, these concepts point toward a unified interpretation of physical law in which matter, electromagnetism, gravity, and periodicity are not isolated domains, but different expressions of the same underlying field dynamics.
This does not eliminate the usefulness of standard models. Rather, it proposes that beneath those models there may be a deeper continuity — one rooted in process, structure, stability, and recurrence.