Nuprl Lemma : equal-functors
∀[A,B:SmallCategory]. ∀[F,G:Functor(A;B)].
  (F = G ∈ Functor(A;B)) supposing 
     ((∀x,y:cat-ob(A). ∀f:cat-arrow(A) x y.
         ((arrow(F) x y f) = (arrow(G) x y f) ∈ (cat-arrow(B) (ob(F) x) (ob(F) y)))) and 
     (∀x:cat-ob(A). ((ob(F) x) = (ob(G) x) ∈ cat-ob(B))))
Proof
Definitions occuring in Statement : 
functor-arrow: arrow(F)
, 
functor-ob: ob(F)
, 
cat-functor: Functor(C1;C2)
, 
cat-arrow: cat-arrow(C)
, 
cat-ob: cat-ob(C)
, 
small-category: SmallCategory
, 
uimplies: b supposing a
, 
uall: ∀[x:A]. B[x]
, 
all: ∀x:A. B[x]
, 
apply: f a
, 
equal: s = t ∈ T
Definitions unfolded in proof : 
uall: ∀[x:A]. B[x]
, 
member: t ∈ T
, 
uimplies: b supposing a
, 
cat-functor: Functor(C1;C2)
, 
and: P ∧ Q
, 
all: ∀x:A. B[x]
, 
top: Top
, 
squash: ↓T
, 
true: True
, 
subtype_rel: A ⊆r B
, 
prop: ℙ
, 
guard: {T}
, 
iff: P 
⇐⇒ Q
, 
rev_implies: P 
⇐ Q
, 
implies: P 
⇒ Q
, 
cand: A c∧ B
, 
so_lambda: λ2x.t[x]
, 
so_apply: x[s]
Lemmas referenced : 
ob_pair_lemma, 
arrow_pair_lemma, 
equal_wf, 
cat-ob_wf, 
iff_weakening_equal, 
cat-arrow_wf, 
all_wf, 
cat-id_wf, 
cat-comp_wf, 
functor-ob_wf, 
functor-arrow_wf, 
subtype_rel-equal, 
squash_wf, 
true_wf, 
cat-functor_wf, 
small-category_wf
Rules used in proof : 
sqequalSubstitution, 
sqequalTransitivity, 
computationStep, 
sqequalReflexivity, 
isect_memberFormation, 
introduction, 
cut, 
sqequalHypSubstitution, 
setElimination, 
thin, 
rename, 
productElimination, 
sqequalRule, 
extract_by_obid, 
dependent_functionElimination, 
isect_memberEquality, 
voidElimination, 
voidEquality, 
hypothesis, 
dependent_set_memberEquality, 
dependent_pairEquality, 
functionExtensionality, 
applyEquality, 
lambdaEquality, 
imageElimination, 
isectElimination, 
because_Cache, 
hypothesisEquality, 
natural_numberEquality, 
imageMemberEquality, 
baseClosed, 
universeEquality, 
equalityTransitivity, 
equalitySymmetry, 
independent_isectElimination, 
independent_functionElimination, 
functionEquality, 
independent_pairFormation, 
productEquality, 
instantiate, 
axiomEquality
Latex:
\mforall{}[A,B:SmallCategory].  \mforall{}[F,G:Functor(A;B)].
    (F  =  G)  supposing 
          ((\mforall{}x,y:cat-ob(A).  \mforall{}f:cat-arrow(A)  x  y.    ((arrow(F)  x  y  f)  =  (arrow(G)  x  y  f)))  and 
          (\mforall{}x:cat-ob(A).  ((ob(F)  x)  =  (ob(G)  x))))
Date html generated:
2017_10_05-AM-00_47_26
Last ObjectModification:
2017_07_28-AM-09_19_41
Theory : small!categories
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