quotient groupoid - definição. O que é quotient groupoid. Significado, conceito
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O que (quem) é quotient groupoid - definição

CATEGORY WHERE EVERY MORPHISM IS INVERTIBLE; GENERALIZATION OF A GROUP
Groupoids; Brandt groupoid; Transformation groupoid; Groupoid (category theory)

Groupoid         
In mathematics, especially in category theory and homotopy theory, a groupoid (less often Brandt groupoid or virtual group) generalises the notion of group in several equivalent ways. A groupoid can be seen as a:
Quotient space (linear algebra)         
VECTOR SPACE CONSISTING OF AFFINE SUBSETS
Linear quotient space; Quotient vector space
In linear algebra, the quotient of a vector space V by a subspace N is a vector space obtained by "collapsing" N to zero. The space obtained is called a quotient space and is denoted V/N (read "V mod N" or "V by N").
∞-groupoid         
ABSTRACT HOMOTOPICAL MODEL FOR TOPOLOGICAL SPACES
Fundamental infinity groupoid; ∞-groupoids; Infinity groupoid; Weak ∞-groupoid; Simplicial groupoid; Infinity-groupoid
In category theory, a branch of mathematics, an ∞-groupoid is an abstract homotopical model for topological spaces. One model uses Kan complexes which are fibrant objects in the category of simplicial sets (with the standard model structure).

Wikipédia

Groupoid

In mathematics, especially in category theory and homotopy theory, a groupoid (less often Brandt groupoid or virtual group) generalises the notion of group in several equivalent ways. A groupoid can be seen as a:

  • Group with a partial function replacing the binary operation;
  • Category in which every morphism is invertible. A category of this sort can be viewed as augmented with a unary operation on the morphisms, called inverse by analogy with group theory. A groupoid where there is only one object is a usual group.

In the presence of dependent typing, a category in general can be viewed as a typed monoid, and similarly, a groupoid can be viewed as simply a typed group. The morphisms take one from one object to another, and form a dependent family of types, thus morphisms might be typed g : A B {\displaystyle g:A\rightarrow B} , h : B C {\displaystyle h:B\rightarrow C} , say. Composition is then a total function: : ( B C ) ( A B ) A C {\displaystyle \circ :(B\rightarrow C)\rightarrow (A\rightarrow B)\rightarrow A\rightarrow C} , so that h g : A C {\displaystyle h\circ g:A\rightarrow C} .

Special cases include:

  • Setoids: sets that come with an equivalence relation,
  • G-sets: sets equipped with an action of a group G {\displaystyle G} .

Groupoids are often used to reason about geometrical objects such as manifolds. Heinrich Brandt (1927) introduced groupoids implicitly via Brandt semigroups.