Macroscopic Dynamics of Entangled 3+1-Dimensional Systems: A Novel Investigation Into Why My MacBook Cable Tangles in My Backpack Every Single Day

Abstract

A key axiom of equilibrium statistical physics is that all microstates are equally probably in a thermally isolated system. Coupled with the laws of Newtonian mechanics, quantum mechanics, chemistry, and thermal physics, one can build from this axiom both complex and satisfactory models for macroscopic phenomena. Here, we apply the precepts of statistical physics to a problem that has puzzled scientists and engineers since its discovery in the 1980's: The Entangled Laptop Cable Problem. Using a stochastic 2-dimensional simulation to approximate projections of the 3+1-dimensional system, we shall see that the overwhelmingly most probable state for a laptop cable is a severely tangled one.