Quantum superposition is indecomposable, measurement is an artifact of the Copenhagen interpretation.
You can view wave function collapse as invalidating your priors and it still works without observation.
The special case of quantum superposition being indecomposable function, or one you can't Curry if you prefer.
QM is actually lucky that there are only two exit basins, n≥3 is where you get the stronger form of indeterminism.
Classic Chaos is deterministic with inf precision, but riddled basins require absolute precision which is stronger, and the wada property is still not deterministic with absolute precision.
Example of the Newton fractal and the wada property.
You can view wave function collapse as invalidating your priors and it still works without observation.
The special case of quantum superposition being indecomposable function, or one you can't Curry if you prefer.
QM is actually lucky that there are only two exit basins, n≥3 is where you get the stronger form of indeterminism.
Classic Chaos is deterministic with inf precision, but riddled basins require absolute precision which is stronger, and the wada property is still not deterministic with absolute precision.
Example of the Newton fractal and the wada property.
https://gauss.math.yale.edu/fractals/MandelSet/RealNewton/NM...
Binary black holes and the Wada property
https://arxiv.org/abs/1807.10741
Think of it as going north from Mexico, crossing the border and finding yourself in Canada.
You can also approach it from KAM and porous sets etc... if that works better for you.