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This is probably a request for Todd!
Over on colimits for categories of algebras there’s a corollary I really need right now, about Eilerberg-Moore categories being cocomplete, and the remark:
The hypotheses of the preceding corollary hold when is a complete, cocomplete, cartesian closed category and is the monad corresponding to a finitary algebraic theory.
That sounds like exactly what I want, but when I click on finitary algebraic theory I get taken to a page that doesn’t have the definition of “finitary algebraic theory”. I think I know what this means, so I could guess and stick it in, but I think I should let the expert do it.
Oh, whoops! - as usual, I actually need a multi-sorted generalization. But still it would be nice to have this clarified.
Oh, goodie - the result I need is exactly Prop. 2.1 on Todd’s page multisorted Lawvere theories! Yet again you saved me, Todd!
(But still it’d be good to define “finitary algebraic theory”. I find this slightly nerve-racking because my usual “algebraic theories” are, I believe, just your finitary ones.)
Glad you figured it out on your own, John. :-) It seems like “finitary algebraic theory” ought to redirect to Lawvere theory. Let me look into it. The bulk of algebraic theory is really mostly about the various infinitary versions.
Another thing I find mildly nerve-racking is “finitary algebraic theory” versus “Lawvere theory” and “multi-sorted Lawvere theory”. We’ll never get everyone in the universe to agree on how these terms are used, but a surprisingly large number of grad students take the nLab as gospel, so if the nLab decides on some clear and consistent usages, most mathematicians (at least on Earth) are likely to fall in line over time.
Redirecting finitary algebraic theory to Lawvere theory seems like a good start. What’s the remaining confusion? Is it whether a “finitary algebraic theory” is necessarily single-sorted? Or whether it should refer to the syntactic presentation instead of the semantic incarnation?
Or whether an “algebraic theory” should be finitary by default? I expect that’s the traditional usage among non-category-theoretic universal-algebraists. On the other hand I believe there’s a certain tradition that refers to any category with a monadic forgetful functor as “algebraic”. Then again, an “essentially algebraic theory” seems fairly unambiguously finitary, so if an “algebraic theory” is not necessarily finitary then we wouldn’t have algebraic essentially algebraic, which is arguably a red herring.
Good questions, all. I think getting some terminological clarity here is a task that I can ( at least help) undertake, starting this evening my time.
There’s another point of view that would take an algebraic theory (putting aside finitary or not) to mean a certain presentation in terms of operations and axioms. (What we call a Lawvere theory or a clone is kind of a maximally saturated such presentation which takes on all definable operations at once.) Category theorists and we nLab denizens often de-emphasize particular presentations, but it’s certainly alive and well in model-theoretic contexts and we should be sensitive to that also.
Thanks Todd! Yes, that’s what I meant to refer to by a “syntactic presentation”. I’m personally very sympathetic to that view.
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