let p1, p2 be FinSequence; :: thesis: (len p1) Shift p2 c= p1 ^ p2
A1: dom ((len p1) Shift p2) = { ((len p1) + k) where k is Element of NAT : k in dom p2 } by Def15;
A2: dom ((len p1) Shift p2) = { k where k is Element of NAT : ( (len p1) + 1 <= k & k <= (len p1) + (len p2) ) } by Th54;
A3: dom (p1 ^ p2) = Seg ((len p1) + (len p2)) by FINSEQ_1:def 7
.= { k where k is Element of NAT : ( 1 <= k & k <= (len p1) + (len p2) ) } by FINSEQ_1:def 1 ;
let x be set ; :: according to RELAT_1:def 3 :: thesis: for b₁ being set holds
( not [x,b₁] in (len p1) Shift p2 or [x,b₁] in p1 ^ p2 )
let y be set ; :: thesis: ( not [x,y] in (len p1) Shift p2 or [x,y] in p1 ^ p2 )
assume A4: [x,y] in (len p1) Shift p2 ; :: thesis: [x,y] in p1 ^ p2
then A5: x in dom ((len p1) Shift p2) by FUNCT_1:1;
A6: y = ((len p1) Shift p2) . x by A4, FUNCT_1:1;
consider k being Element of NAT such that
A7: x = k and
A8: (len p1) + 1 <= k and
A9: k <= (len p1) + (len p2) by A2, A5;
1 <= (len p1) + 1 by INT_1:6;
then 1 <= k by A8, XXREAL_0:2;
then A10: x in dom (p1 ^ p2) by A3, A7, A9;
consider j being Element of NAT such that
A11: x = (len p1) + j and
A12: j in dom p2 by A1, A5;
y = p2 . j by A6, A11, A12, Def15
.= (p1 ^ p2) . x by A11, A12, FINSEQ_1:def 7 ;
hence [x,y] in p1 ^ p2 by A10, FUNCT_1:1; :: thesis: verum