deffunc H1( Ordinal) -> set = (f,$1) -. a;
defpred S1[ Ordinal] means (f,$1) -. a is Element of L;
A1: now
let O1 be Ordinal; :: thesis: ( S1[O1] implies S1[ succ O1] )
assume S1[O1] ; :: thesis: S1[ succ O1]
then reconsider fa = (f,O1) -. a as Element of L ;
f . fa = (f,(succ O1)) -. a by Th19;
hence S1[ succ O1] ; :: thesis: verum
end;
A2: now
let O1 be Ordinal; :: thesis: ( O1 <> {} & O1 is limit_ordinal & ( for O2 being Ordinal st O2 in O1 holds
S1[O2] ) implies S1[O1] )
assume that
A3: ( O1 <> {} & O1 is limit_ordinal ) and
for O2 being Ordinal st O2 in O1 holds
S1[O2] ; :: thesis: S1[O1]
consider Ls being T-Sequence such that
A4: ( dom Ls = O1 & ( for O2 being Ordinal st O2 in O1 holds
Ls . O2 = H1(O2) ) ) from ORDINAL2:sch 2();
 (f,O1) -. a = "/\" ((rng Ls),L) by A3, A4, Th21;
hence S1[O1] ; :: thesis: verum
end;
A5: S1[ {} ] by Th17;
for O being Ordinal holds S1[O] from ORDINAL2:sch 1(A5, A1, A2);
 hence (f,O) -. a is Element of L ; :: thesis: verum