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2025-03-18 15:40:04 +01:00 · 2025-03-18 15:40:04 +01:00 · 3e3e4cffc6
commit 3e3e4cffc6
parent 8f5c127428
1 changed files with 2 additions and 1 deletions
--- a/Systems/notes/6
+++ b/Systems/notes/6
@ -41,7 +41,8 @@ We now show that $\to$ is acyclic.
 2. it cannot have cycles with 2 edges:
 	- let's assume that $op \to op' \to op$
 	- both arrows cannot be $\to_H$ nor $\to_X$ (for some X), otw. it won't be a total order (and would be cyclic)
-	- it cannot be that one is $\to_X$ 
+	- it cannot be that one is $\to_X$ and the other $\to_Y$ (for some $X \neq Y$), otherwise op/op' would be on 2 different objects.
+	- So it must be $op \to_X op' \to_H op$


 > [!PDF|red] class 6, p.6>  we would have a cycle of length