English

Angular momentum without rotation: turbocharging relationalism

History and Philosophy of Physics 2021-12-30 v1

Abstract

Newton's rotating bucket pours cold water on the naive relationalist by vividly illustrating how certain rotational effects, particularly those due to non-zero angular momentum, can depend on more than just relations between material bodies. Because of such effects, rotation has played a central role in the absolute-relational debate and poses a particularly difficult challenge to the relationalist. In this paper, we provide a qualified response to this challenge that significantly weakens the absolutist position. We present a theory that, contrary to orthodoxy, can account for all rotational effects without introducing, as the absolutist does, a fixed standard of rotation. Instead, our theory posits a universal SO(3) charge that plays the role of angular momentum and couples to inter-particle relations via terms commonly seen in standard gauge theories such as electromagnetism and the Standard Model of particle physics. Our theory makes use of an enriched form of relationalism: it adds an SO(3) structure to the traditional relational description. Our construction is made possible by the modern tools of gauge theory, which reveal a simple relational law describing rotational effects. In this way, we can save the phenomena of Newtonian mechanics using conserved charges and relationalism. In a second paper, we will further explore the ontological and explanatory implications of the theory developed here.

Keywords

Cite

@article{arxiv.2011.01693,
  title  = {Angular momentum without rotation: turbocharging relationalism},
  author = {Henrique Gomes and Sean Gryb},
  journal= {arXiv preprint arXiv:2011.01693},
  year   = {2021}
}

Comments

41 pages, 1 figure

R2 v1 2026-06-23T19:53:05.433Z