An explanation of ill posed eigenvalue problems. This issue exists in many mathematical "models" where the computed value approaches extremely large numbers. For example, many Mechanics (note the M not m) practitioners actually believe that the stress at a crack tip is INFINITE, rather than just saying the model in use becomes unusable in that region (which now they do assume and use boundary layer methods). So, you get a bunch of crap like "the black hole has immesurable gravitational fields" and what not.
It's even worse though. The concept of "black" is used to denote the fact that nobody is actually observing ANYTHING (you have to trust me goys, you can't see it but it's there). Dig into it and you see the idea is really just a flawed use of a "center of mass" computation where the black hole is the statistical "expected value" of the fields measured (or not even measure, but assumed).
In short, use an inadequate model, or a model that works in a simplified space (like all models, or your computations literally take forever) to a "global" (largest compartment containing "everything") system. You'll always get singularites (which is technically a paradox). People then take these results that don't make sense, then assume it's right anyway, and make up "story time" explanations.
An explanation of ill posed eigenvalue problems. This issue exists in many mathematical "models" where the computed value approaches extremely large numbers. For example, many Mechanics (note the M not m) practitioners actually believe that the stress at a crack tip is INFINITE, rather than just saying the model in use becomes unusable in that region (which now they do assume and use boundary layer methods). So, you get a bunch of crap like "the black hole has immesurable gravitational fields" and what not.
It's even worse though. The concept of "black" is used to denote the fact that nobody is actually observing ANYTHING (you have to trust me goys, you can't see it but it's there). Dig into it and you see the idea is really just a flawed use of a "center of mass" computation where the black hole is the statistical "expected value" of the fields measured (or not even measure, but assumed).
In short, use an inadequate model, or a model that works in a simplified space (like all models, or your computations literally take forever) to a "global" (largest compartment containing "everything") system. You'll always get singularites (which is technically a paradox). People then take these results that don't make sense, then assume it's right anyway, and make up "story time" explanations.