let T be non empty TopSpace; ( T is Frechet implies for A, B being Subset of T holds
( Cl_Seq ({} T) = {} & A c= Cl_Seq A & Cl_Seq (A \/ B) = (Cl_Seq A) \/ (Cl_Seq B) & Cl_Seq (Cl_Seq A) = Cl_Seq A ) )
assume A1:
T is Frechet
; for A, B being Subset of T holds
( Cl_Seq ({} T) = {} & A c= Cl_Seq A & Cl_Seq (A \/ B) = (Cl_Seq A) \/ (Cl_Seq B) & Cl_Seq (Cl_Seq A) = Cl_Seq A )
let A, B be Subset of T; ( Cl_Seq ({} T) = {} & A c= Cl_Seq A & Cl_Seq (A \/ B) = (Cl_Seq A) \/ (Cl_Seq B) & Cl_Seq (Cl_Seq A) = Cl_Seq A )
thus
( Cl_Seq ({} T) = {} & A c= Cl_Seq A & Cl_Seq (A \/ B) = (Cl_Seq A) \/ (Cl_Seq B) )
by Th20, Th21, Th22; Cl_Seq (Cl_Seq A) = Cl_Seq A
thus Cl_Seq (Cl_Seq A) =
Cl_Seq (Cl A)
by A1, Th23
.=
Cl (Cl A)
by A1, Th23
.=
Cl_Seq A
by A1, Th23
; verum