Short answer: because the “action” near a moving interface lives on a different balance of forces, time scales, and even PDE type than the bulk. If you don’t split them, you smear the physics and lie to yourself with pretty plots. And once you go multiscale, tiny errors at the fast/small layer ricochet up the hierarchy, so predictability evaporates like your free time.

Why separate PDEs for each moving boundary layer

Think “inner vs outer” problems. A thin layer of thickness ε hugging an interface has different dominant terms than the bulk. You rescale coordinates by ε, do matched asymptotics, and new leading-order equations pop out that are not the same as the outer PDE.

Common consequences:

Concrete templates you see in the wild:

Why multiscale slashes predictability

Welcome to the error cascade.