The view that thinking and decision-making emerge from the messy, adaptive interactions of many simple parts without a central controller. It's cognition as a swarm phenomenon. This applies to ant colonies making collective "decisions" about nest sites, the immune system "learning" to recognize pathogens, or the distributed problem-solving of a brainstorming team. The cognitive property is a product of the system's dynamics, not located in any single component.
Example: "The company's successful pivot wasn't due to the CEO's genius; it was dynamic-complex cognition. Thousands of employees, customers on social media, and market data interacted in a networked whirl. The 'decision' emerged like a murmuration of starlings changing direction—no leader, just countless local interactions producing a brilliant, collective shift."
by Dumu The Void January 30, 2026
Get the Dynamic-Complex Cognition mug.The specific application of non-equilibrium thermodynamic principles to complex adaptive systems. This is the rigorous math behind the idea that life, cities, and ecosystems are not accidents but natural, energy-dissipating structures. It quantifies how these systems maintain themselves at the edge of chaos by optimally balancing energy import, entropy export, and internal organization. The system's intelligence or function becomes a thermodynamic variable.
Example: "The researcher's model of a coral reef used dynamic-complex systems thermodynamics. It showed the reef maximizes its resilience by maintaining a specific ratio of energy throughput to internal information storage. Overfishing didn't just remove fish; it degraded the reef's thermodynamic efficiency, pushing it toward a simpler, less vibrant stable state—a colorful city turning into a dull parking lot, energetically speaking."
by Dumu The Void January 30, 2026
Get the Dynamic-Complex Systems Thermodynamics mug.The study of energy and entropy in systems that are far from equilibrium, constantly adapting, and where the very rules of heat and work are entangled with emerging patterns. It's thermodynamics for a universe that won't sit still—applied to hurricanes, economies, or the internet. Unlike classic thermodynamics which deals with static or simple equilibrium states, this field wrestles with systems where energy flows create structure, feedback loops amplify or dampen change, and entropy production becomes a driver of complexity rather than just a measure of disorder. It's the physics of becoming, not just being.
Example: "Trying to cool a massive server farm running chaotic AI workloads is a problem in dynamic-complex thermodynamics. The heat output isn't constant; it spikes with computational creativity, creating feedback loops where the cooling system's own energy use generates more heat. It's like trying to put out a fire that designs more flammable materials as it burns."
by Dumu The Void January 30, 2026
Get the Dynamic-Complex Thermodynamics mug.The argument that many systems we call "complex" (global finance, climate models, bureaucratic states) are not inherently complex like a rainforest. Their complexity is designed and accrued through layers of rules, exceptions, intermediaries, and jargon. This constructed complexity often serves as a barrier to entry, a shield for those inside the system, and a source of power for the "experts" who can navigate it. It's complicated by design.
Example: "Filing taxes isn't complex like quantum physics; it's complex like a board game where someone keeps adding new rules to benefit themselves. The Theory of Constructed Complexities shows the tax code's difficulty isn't natural; it's the result of decades of lobbying for loopholes and exemptions. The complexity constructs a moat around wealth, requiring expensive accountants (the wizards of the moat) to cross."
by Abzu Land January 31, 2026
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