TOE-E Applications Across Domains
TOE‑E models stable emergence across disciplines by mapping Energy (E), Entropy (S), and Resonance (R). Explore starting points below and dive deeper on the Research Hub.
Physics
What it means: Orbital stability emerges when gravitational energy, orbital entropy, and harmonic resonance align.
Maps: E = gravitational/kinetic energy, S = thermodynamic entropy, R = orbital frequency alignment.
Cognition
What it means: Stable concepts emerge when cognitive energy, informational entropy, and neural resonance align.
Maps: E = cognitive effort, S = noise in information processing, R = neural coherence.
Economics
What it means: Market stability emerges when capital flow, market entropy, and policy resonance align.
Maps: E = capital flow, S = market volatility, R = policy and trade alignment.
Biology
What it means: Life maintains order when metabolic energy, environmental randomness, and adaptive coupling align.
Maps: E = biochemical energy (ATP, gradients), S = mutational/thermal noise, R = gene regulatory and ecological network resonance.
Chemistry
What it means: Chemical systems self-organize when reaction energy, disorder, and molecular synchronization cohere.
Maps: E = activation energy/input, S = entropy change/dispersal, R = oscillations and reaction-diffusion patterns.
Other
What it means: TOE-E can model emergence in art, culture, ecosystems, AI systems, and beyond — anywhere Energy, Entropy, and Resonance interact.
Maps: Defined by the specific emergent system studied.
These six domains are just a starting point — TOE-E applies to any emergent system where Energy, Entropy, and Resonance interact.
Ready to Map Your Domain?
Whether you’re studying galaxies, neurons, markets, or ideas, TOE-E gives you a universal lens for understanding stability and change. Start your own branch and help grow the living Theory Tree.