An initial solution to the monad problem, and then some more

Theory Lunch

This is the second of two talks about monads, based on the very good notes by Andrea Schalk and continuing the one I gave on the 30th of May. Recall that we are trying to solve the following problem:

given a monad $latex T = (T, eta, mu)$, find an adjunction $latex (F, G, eta, varepsilon)$ such that $latex T = GF$ and $latex mu = G varepsilon_F$

If the adjunction $latex (F, G, eta, varepsilon)$ solves the problem above, we say that it generates the monad $latex T$.

The first solution to this problem was given by the Swiss mathematician Heinrich Kleisli, and is based on an alternative way of defining monads, as it is the case with adjunctions.

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