Newton's graphical method as a canonical transformation

Abstract

This work shows that, Newton's Proposition 1 in the Principia, is an exact graphical representation of a canonical transformation, a first-order symplectic integrator generated at a finite time-step by the Hamiltonian. A fundamental characteristic of this canonical transformation is to update the position and velocity vectors sequentially, thereby automatically conserving the phase-volume and the areal velocity due to a central force. As a consequence, the continuous force is naturally replaced by a series of impulses. The convergence of Newton's Proposition 1 in the limit of t→ 0 can be proved easily and the resulting error term for the linear and the inverse square force can explain why Hooke was able to the obtain an elliptical orbit for the former but not the latter.