Well, because the definition comes from the classifying arrow, and this classifying arrow depends on how the topos works. If we have Set^2, that's one thing; if we have Set^[0,1,2,3], it's the other thing. In both cases Ω has 4 points.
Maybe I don't get something basic. What it looks like to me, since the square has arrows (true,true) and true, it defines only the behaviour of the classifying arrow for one pair, not all possible pairs.
Right. It classifies just one point, (true, true). But it's defined on the whole ΩxΩ. How is it defined? It maps every (generalized) arrow T → ΩxΩ to a value in Ω, and it evaluates how close is this arrow to (true, true).
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timeasmymeasure
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Date: 2020-06-30 06:04 pm (UTC)But my question is how does the definition reflect this fact? It seems to only say that T ∧ T = T - nothing about a ∧ b = ⊥, and not, say, a ∧ b = a.
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Date: 2020-06-30 08:01 pm (UTC)no subject
Date: 2020-06-30 08:17 pm (UTC)Maybe I don't get something basic. What it looks like to me, since the square has arrows (true,true) and true, it defines only the behaviour of the classifying arrow for one pair, not all possible pairs.
no subject
Date: 2020-07-01 12:08 am (UTC)