deffunc H1( set , Element of [:NAT,NAT:]) -> Element of K19(NAT,NAT) = [($2 `2),(($2 `1) + ($2 `2))];
consider L being Function of NAT,[:NAT,NAT:] such that
A1:
( L . 0 = [2,1] & ( for n being Nat holds L . (n + 1) = H1(n,L . n) ) )
from NAT_1:sch 12();
take
(L . n) `1
; ex L being Function of NAT,[:NAT,NAT:] st
( (L . n) `1 = (L . n) `1 & L . 0 = [2,1] & ( for n being Nat holds L . (n + 1) = [((L . n) `2),(((L . n) `1) + ((L . n) `2))] ) )
take
L
; ( (L . n) `1 = (L . n) `1 & L . 0 = [2,1] & ( for n being Nat holds L . (n + 1) = [((L . n) `2),(((L . n) `1) + ((L . n) `2))] ) )
thus
( (L . n) `1 = (L . n) `1 & L . 0 = [2,1] & ( for n being Nat holds L . (n + 1) = [((L . n) `2),(((L . n) `1) + ((L . n) `2))] ) )
by A1; verum