You mean if we knew exactly what every atom in a die was going to do, we could predict the behavior of the die?
You seem to be stating that classical physics applies to very large systems without stating that such an outcome is predicted by quantum physics due to the very large number of independent random events.
Sorry I did not see your post earlier.
You mean if we knew exactly what every atom in a die was going to do, we could predict the behavior of the die?
Not exactly. I mean, at the macro level, all physical events are determined. If they were not, the behavior of everything from computers to lasers would be unreliable. Except for manufacturing errors, they are entirely reliable. If you knew the exact amount of energy and momentum applied to a pair of dice, and coefficient to friction of the material the landed on and the angle at which they landed (the entire physical context, in other words) you would know exactly what they would do. Every time that identical context was repeated (if it could be) the behavior of the dice would be identical.
I do not think that behavior has anything to do with the indeterminate (not random) quantum behavior.
A thought for you. Quantum mechanics treats particles as discrete. The wave nature of these “particles” (which is analog) is ignored.
Not make an argument for my view, just telling you what it is.
Hank