Symmetry breaking
Symmetry breaking occurs when a system's governing equations possess a symmetry that its realized solutions do not. In physics and systems theory, it describes how a homogeneous state spontaneously acquires structure, "choosing" one organized configuration from a set of equivalent possibilities.
It is the mechanism by which Bénard cells select hexagonal geometry, by which the Belousov-Zhabotinsky reaction produces spiral waves, and by which phase transitions in condensed matter generate distinct ordered states. Symmetry breaking is not an external imposition but an internal consequence of instability: the symmetric state becomes unstable, and the system falls into an asymmetric attractor.
The concept connects dynamical systems, particle physics, and developmental biology. It is the geometric signature of emergence: the whole acquires properties that are absent from the parts because the symmetric configuration is no longer viable.