Implication Details
Assumptions: disjoint finite coproducts
Conclusions: finite coproducts
Proof: This holds by definition.
Show 27 categories using this implication
- category of combinatorial species
- category of fields
- category of finite groups
- category of finite ordered sets
- category of finite sets
- category of finite sets and surjections
- category of Jónsson-Tarski algebras
- category of M-sets
- category of metric spaces with non-expansive maps
- category of non-empty sets
- category of pairs of sets
- category of pseudo-metric spaces with non-expansive maps
- category of set functions and commutative squares
- category of sets
- category of sets with a distinguished subset
- category of sheaves
- category of simplicial sets
- delooping of the additive monoid of ordinal numbers
- discrete category on two objects
- empty category
- simplex category
- trivial category
- walking coreflexive pair
- walking idempotent
- walking isomorphism
- walking span
- walking splitting