let GX be TopStruct ;
let V be Subset of GX;
func Component_of V -> Subset of GX means :Def1: :: CONNSP_3:def 1
ex F being Subset-Family of GX st
( ( for A being Subset of GX holds
( A in F iff ( A is connected & V c= A ) ) ) & union F = it );
existence
ex b₁ being Subset of GX ex F being Subset-Family of GX st
( ( for A being Subset of GX holds
( A in F iff ( A is connected & V c= A ) ) ) & union F = b₁ ) uniqueness
for b₁, b₂ being Subset of GX st ex F being Subset-Family of GX st
( ( for A being Subset of GX holds
( A in F iff ( A is connected & V c= A ) ) ) & union F = b₁ ) & ex F being Subset-Family of GX st
( ( for A being Subset of GX holds
( A in F iff ( A is connected & V c= A ) ) ) & union F = b₂ ) holds
b₁ = b₂

let GX be TopStruct ; :: thesis: ex F being Subset-Family of GX st
( ( for B being Subset of GX st B in F holds
B is a_component ) & {} GX = union F )
reconsider S = {} as Subset-Family of GX by XBOOLE_1:2;
for B being Subset of GX st B in S holds
B is a_component ;
hence ex F being Subset-Family of GX st
( ( for B being Subset of GX st B in F holds
B is a_component ) & {} GX = union F ) by ZFMISC_1:2; :: thesis: verum

let GX be TopStruct ;
mode a_union_of_components of GX -> Subset of GX means :Def2: :: CONNSP_3:def 2
ex F being Subset-Family of GX st
( ( for B being Subset of GX st B in F holds
B is a_component ) & it = union F );
existence
ex b₁ being Subset of GX ex F being Subset-Family of GX st
( ( for B being Subset of GX st B in F holds
B is a_component ) & b₁ = union F )

let GX be TopStruct ;
let B be Subset of GX;
let p be Point of GX;
assume A1: p in B ;
func Down (p,B) -> Point of (GX | B) equals :Def3: :: CONNSP_3:def 3
p;
coherence
p is Point of (GX | B)

let GX be TopStruct ;
let B be Subset of GX;
let p be Point of (GX | B);
assume A1: B <> {} ;
func Up p -> Point of GX equals :: CONNSP_3:def 4
p;
coherence
p is Point of GX

let GX be TopStruct ;
let V, B be Subset of GX;
func Down (V,B) -> Subset of (GX | B) equals :: CONNSP_3:def 5
V /\ B;
coherence
V /\ B is Subset of (GX | B)

let GX be TopStruct ;
let B be Subset of GX;
let V be Subset of (GX | B);
func Up V -> Subset of GX equals :: CONNSP_3:def 6
V;
coherence
V is Subset of GX

let GX be TopStruct ;
let B be Subset of GX;
let p be Point of GX;
assume A1: p in B ;
func Component_of (p,B) -> Subset of GX means :Def7: :: CONNSP_3:def 7
for q being Point of (GX | B) st q = p holds
it = Component_of q;
existence
ex b₁ being Subset of GX st
for q being Point of (GX | B) st q = p holds
b₁ = Component_of q uniqueness
for b₁, b₂ being Subset of GX st ( for q being Point of (GX | B) st q = p holds
b₁ = Component_of q ) & ( for q being Point of (GX | B) st q = p holds
b₂ = Component_of q ) holds
b₁ = b₂

let T be non empty TopSpace;
cluster non empty a_union_of_components of T;
existence
not for b₁ being a_union_of_components of T holds b₁ is empty