Emergence, causation and storytelling: condensed matter physics and the limitations of the human mind

TL;DR

This paper explores how emergent narratives in condensed matter physics help us understand complex systems beyond human cognitive limits, highlighting the role of storytelling in scientific explanation.

Contribution

It demonstrates how emergent concepts effectively describe complex physical phenomena, addressing the limitations of human cognition in understanding vast microphysical systems.

Findings

Emergent narratives simplify complex condensed matter phenomena.

Storytelling aids in understanding systems beyond human comprehension.

Examples from cellular automata illustrate the power of emergent explanations.

Abstract

The physics of matter in the condensed state is concerned with problems in which the number of constituent particles is vastly greater than can be easily comprehended. The inherent physical limitations of the human mind are fundamental and restrict the way in which we can interact with and learn about the universe. This presents challenges for developing scientific explanations that are met by emergent narratives, concepts and arguments that have a non-trivial relationship to the underlying microphysics. By examining examples within condensed matter physics, and also from cellular automata, I show how such emergent narratives efficiently describe elements of reality.