Two Hundred Years After Hamilton: The Simple Axiom That Underlies Classical Mechanics

In 1834-1835, Hamilton published two papers that revolutionized classical mechanics. In these papers, he introduced the Hamilton-Jacobi equation, Hamilton's equations of motion and the principle of least action. These three formulations of classical mechanics became the forerunners of quantum mechanics, but none of these is what Hamilton was looking for: he was looking for what he called the principal function, $S(q',q'',T)$, from which the entire trajectory history can be obtained just by differentiation. Here we show that all of Hamilton's formulations can be derived just by assuming that the principal function is additive, $S(q',q'',T)=S(q',Q,t_1)+S(Q,q'',t_2)$ with $t_1+t_2=T$. This simple additivity axiom can be considered the fundamental principle of classical mechanics and shows that analytical mechanics is essentially just a footnote to the problem of finding the shortest path between two points. The simplicity of the formulation could provide new perspectives on some of the major themes in classical mechanics including symplectic geometry, periodic orbit theory and Morse theory, as well as giving new perspectives on quantum mechanics. Moreover, it could potentially provide a unified description of different areas of physics, leading to insight for example, into the transition from deterministic dynamics to statistical mechanics.
Comment: arXiv admin note: text overlap with arXiv:2109.09094