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- ==The category of functors== Let <math>C</math> and <math>D</math> be two categories. The category of functors <math>Funct(C^{op},Sets)</math> has2 KB (392 words) - 07:32, 27 July 2008
- 234 bytes (26 words) - 07:32, 27 July 2008
- 12 bytes (1 word) - 02:45, 15 January 2008
- 140 bytes (17 words) - 07:23, 27 July 2008
- 831 bytes (121 words) - 07:31, 27 July 2008
Page text matches
- ==The category of functors== Let <math>C</math> and <math>D</math> be two categories. The category of functors <math>Funct(C^{op},Sets)</math> has2 KB (392 words) - 07:32, 27 July 2008
- #REDIRECT[[Category of functors]]33 bytes (4 words) - 15:25, 19 December 2007
- #REDIRECT[[Category of functors]]69 bytes (7 words) - 17:20, 18 December 2007
- {{r|Category of functors|'''Funct'''}}648 bytes (83 words) - 10:12, 11 May 2009
- ...Mitchell states that every [[Category theory|small]] abelian category is [[Category of functors|equivalent]] to a category of [[Module|modules]]. This has one important c2 KB (235 words) - 18:20, 21 January 2008
- {{r|Category of functors}}598 bytes (78 words) - 20:14, 11 January 2010
- ...math> is a <math>B</math>-module. Moreover, <math>Der_A(B,-)</math> is a [[Category of functors|representable functor]]; we call the representative <math>\Omega_{B/A}</mat686 bytes (133 words) - 11:45, 1 January 2008
- ...] and the category of affine schemes, one can show that it is in fact an [[Category of functors|anti-equivalence]] of categories.3 KB (525 words) - 17:31, 10 December 2008