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Mac Lane coherence theorem

From Wikipedia, the free encyclopedia

In category theory, a branch of mathematics, Mac Lane's coherence theorem states, in the words of Saunders Mac Lane, “every diagram commutes”.[1] But regarding a result about certain commutative diagrams, Kelly is states as follows: "no longer be seen as constituting the essence of a coherence theorem".[2] More precisely (cf. #Counter-example), it states every formal diagram commutes, where "formal diagram" is an analog of well-formed formulae and terms in proof theory.

Counter-example

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It is not reasonable to expect we can show literally every diagram commutes, due to the following example of Isbell.[3]

Let be a skeleton of the category of sets and D a unique countable set in it; note by uniqueness. Let be the projection onto the first factor. For any functions , we have . Now, suppose the natural isomorphisms are the identity; in particular, that is the case for . Then for any , since is the identity and is natural,

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Since is an epimorphism, this implies . Similarly, using the projection onto the second factor, we get and so , which is absurd.

Proof

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See also

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Notes

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  1. ^ Mac Lane 1998, Ch VII, § 2.
  2. ^ Kelly 1974, 1.2
  3. ^ Mac Lane 1998, Ch VII. the end of § 1.

References

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  • Hasegawa, Masahito (2009). "On traced monoidal closed categories". Mathematical Structures in Computer Science. 19 (2): 217–244. doi:10.1017/S0960129508007184.
  • Joyal, A.; Street, R. (1993). "Braided Tensor Categories". Advances in Mathematics. 102 (1): 20–78. doi:10.1006/aima.1993.1055.
  • MacLane, Saunders (October 1963). "Natural Associativity and Commutativity". Rice Institute Pamphlet - Rice University Studies. hdl:1911/62865.
  • MacLane, Saunders (1965). "Categorical algebra". Bulletin of the American Mathematical Society. 71 (1): 40–106. doi:10.1090/S0002-9904-1965-11234-4.
  • Mac Lane, Saunders (1998). Categories for the working mathematician. New York: Springer. ISBN 0-387-98403-8. OCLC 37928530.
  • Section 5 of Saunders Mac Lane, Mac Lane, Saunders (1976). "Topology and logic as a source of algebra". Bulletin of the American Mathematical Society. 82 (1): 1–40. doi:10.1090/S0002-9904-1976-13928-6.

Further reading

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