Physics treats symmetry as ontologically basic and asymmetry as deviation: continuoussymmetries ground conservation laws through Noether’s theorem, and broken symmetry issomething requiring explanation. This paper argues that the order is inverted. Asymmetry is theprime mover, and symmetry is the appearance that asymmetry produces when it operates withsufficient regularity to look balanced. The argument is structural rather than empirical: anyprocess that produces structure must be active, anything active differentiates one state fromanother, and differentiation is asymmetric; perfect symmetry, as an ontological state rather thana description, would be inactive and would therefore produce nothing. On this reading, symmetryis redefined as dynamic consistency rather than identity under transformation, conservation lawsbecome the trace of asymmetric corrective work rather than balanced equations, and “symmetrybreaking” is more accurately described as asymmetry revelation: a change in what observationcan resolve, not in what is the case. The inversion makes precise contact with Curie's principle: itsupplies the reason the principle's antecedent, an initially symmetric state, is never fulfilled,grounding Earman's formal defence of the principle and dissolving spontaneous symmetrybreaking as its supposed counterexample. The inversion is shown to follow from, and to extend,the account of conservation and gravitytime developed in a companion technical paper, and togeneralize beyond physics to any case in which apparent stability is the trace of ongoing work.The result is not a denial of the predictive success of symmetric formalism but a reinterpretationof what that formalism describes: the regularity of a process, not the process itself.
Paul W. Barnes (Sun,) studied this question.