> and this scale can be determined by another experiment where we test how long we can put a heavy atom in superposition of being in two different locations."
Im a physics noob, but does this imply the theory helps explain why we usually only see quantum effects on the mucroscopic scale, since it says something about how heavy objects cant be put in superposition?
I'm a physics noob too, but from what I understand, the quantum effects don't happen on macroscopic scale because of high temperature and lack of "structure".
Every interaction of particles seems to change the state ("collapse the wave function") of the particles, so such a chaotic environment makes things start behaving in a predictable way. Sort of how balls falling in a Galton board seem to converge to Gauss normal distribution: https://en.wikipedia.org/wiki/Galton_board
Im a physics noob, but does this imply the theory helps explain why we usually only see quantum effects on the mucroscopic scale, since it says something about how heavy objects cant be put in superposition?