Part 6/10:

The brilliance of the GRW approach lies in its stipulation that wave function collapse is statistically tied to the number of particles involved. In isolation, a single particle might remain in a quantum state for an extensive period (around 100 million years). However, as the number of particles in a system increases, the likelihood of wave function collapse rises sharply. For a macroscopic object composed of around Avogadro's number of particles, a collapse could occur every ten nanoseconds. Thus, this theory elegantly explains why larger systems tend to display classical behavior as opposed to quantum characteristics.