Actually, I think I can hazard a guess to that one. I think the idea would be “the simpler the mathematical structure, the more often it’d show up as a substructure in other mathematical structures”
For instance, if you are building large random graphs, you’d expect to see some specific pattern of, say, 7 vertices and 18 edges show up as subgraphs more often then, say, some specific pattern of 100 vertices and 2475 edges.
There’s a sense in which “reality fluid” could be distributed evenly which would lead to this. If every entire mathematical structure got an equal amount of reality stuff, then small structures would benefit from the reality juice granted to the larger structures that they happen to also exist as substructures of.
EDIT: blargh, corrected big graph edge count. meant to represent half a complete graph.
Actually, I think I can hazard a guess to that one. I think the idea would be “the simpler the mathematical structure, the more often it’d show up as a substructure in other mathematical structures”
For instance, if you are building large random graphs, you’d expect to see some specific pattern of, say, 7 vertices and 18 edges show up as subgraphs more often then, say, some specific pattern of 100 vertices and 2475 edges.
There’s a sense in which “reality fluid” could be distributed evenly which would lead to this. If every entire mathematical structure got an equal amount of reality stuff, then small structures would benefit from the reality juice granted to the larger structures that they happen to also exist as substructures of.
EDIT: blargh, corrected big graph edge count. meant to represent half a complete graph.