Comment on Jeopardy wall calendar pretending that the coastline paradox doesn't exist
SmoothOperator@lemmy.world 5 hours agoBut isn’t the issue that coastlines have a fractal nature? That depending on your resolution, you could have a finite or infinite length of a coastline? In which case measurement is hard to define.
Talking about integrals, the fun part is that even with a coastline of indeterminate length, the area of a continent is easy to define to arbitrary precision - you can just define an integral that’s definitely inside the area and one that’s definitely outside the area, and the answer is between those two.
Capricorn_Geriatric@lemmy.world 3 hours ago
Is it?
The main problem with a coastline’s shape isn’t the fractality of it, or the relative size we measure in (the “resolution”).
It’s the fact that a coastline isn’t a static thing. The tides move the shoreline by up to a few meters.
Then there are tectonic movements. These are much slower, but much more powerful: at one point Asia wasn’t even a thing.
As you take the “resolution” up, yes - you’ll see various fractal-like behaviour.
But, and thus is a big but: this will happen even if you take a straight ruler of, say, 1m in length (or, since we have to deal with every little edge case here, the part of it that actually measures out a meter). If you zoom in on it at the molecular and atomic levels, you’ll come across the same problem: a straight line isn’t a straight line! It just appears straight at the human “resolution” (scale).
But does that mean a ruler measuring out 1m isn’t 1m long?
Yes and no.
Just like our coastline.
T> alking about integrals, the fun part is that even with a coastline of indeterminate length, the area of a continent is easy to define to arbitrary precision - you can just define an integral that’s definitely inside the area and one that’s definitely outside the area, and the answer is between those two.
Is it really?
And what is the difference between length and area, other than the one dimension they are apart?
What you’re taking as a common sense assumption for area is applicable equally to the length. Find two extremes, and the answer is somewhere in the middle. The less extreme those extremes become, the more accurate the approximation.
Just as you can integrate the area, there must be an equivalent process to integrate the length.
And again, any approximate curve of a coastline used to define the length of a coastline is a bigger assumption than a sufficiently sane “resolution” used to divide the curve into discrete intervals.
Why does area get to be especially fun and definite while length , its one-dimension-away sibling doesn’t?