let V be ComplexLinearSpace; :: thesis: for z being Complex
for F, G being FinSequence of the carrier of V st len F = len G & ( for k being Nat
for v being VECTOR of V st k in dom F & v = G . k holds
F . k = z * v ) holds
Sum F = z * (Sum G)
let z be Complex; :: thesis: for F, G being FinSequence of the carrier of V st len F = len G & ( for k being Nat
for v being VECTOR of V st k in dom F & v = G . k holds
F . k = z * v ) holds
Sum F = z * (Sum G)
let F, G be FinSequence of the carrier of V; :: thesis: ( len F = len G & ( for k being Nat
for v being VECTOR of V st k in dom F & v = G . k holds
F . k = z * v ) implies Sum F = z * (Sum G) )
defpred S1[ set ] means for H, I being FinSequence of the carrier of V st len H = len I & len H = $1 & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) holds
Sum H = z * (Sum I);
A1: dom F = Seg (len F) by FINSEQ_1:def 3;
now :: thesis: for n being Nat st ( for H, I being FinSequence of the carrier of V st len H = len I & len H = n & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) holds
Sum H = z * (Sum I) ) holds
for H, I being FinSequence of the carrier of V st len H = len I & len H = n + 1 & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) holds
Sum H = z * (Sum I)
let n be Nat; :: thesis: ( ( for H, I being FinSequence of the carrier of V st len H = len I & len H = n & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) holds
Sum H = z * (Sum I) ) implies for H, I being FinSequence of the carrier of V st len H = len I & len H = n + 1 & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) holds
Sum H = z * (Sum I) )
assume A2: for H, I being FinSequence of the carrier of V st len H = len I & len H = n & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) holds
Sum H = z * (Sum I) ; :: thesis: for H, I being FinSequence of the carrier of V st len H = len I & len H = n + 1 & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) holds
Sum H = z * (Sum I)
let H, I be FinSequence of the carrier of V; :: thesis: ( len H = len I & len H = n + 1 & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) implies Sum H = z * (Sum I) )
assume that
A3: len H = len I and
A4: len H = n + 1 and
A5: for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ; :: thesis: Sum H = z * (Sum I)
reconsider p = H | (Seg n), q = I | (Seg n) as FinSequence of the carrier of V by FINSEQ_1:18;
A6: n <= n + 1 by NAT_1:12;
then A7: len q = n by A3, A4, FINSEQ_1:17;
A8: len p = n by A4, A6, FINSEQ_1:17;
A9: now :: thesis: for k being Nat
for v being VECTOR of V st k in Seg (len p) & v = q . k holds
p . k = z * v
len p <= len H by A4, A6, FINSEQ_1:17;
then A10: Seg (len p) c= Seg (len H) by FINSEQ_1:5;
A11: dom p = Seg n by A4, A6, FINSEQ_1:17;
let k be Nat; :: thesis: for v being VECTOR of V st k in Seg (len p) & v = q . k holds
p . k = z * v
let v be VECTOR of V; :: thesis: ( k in Seg (len p) & v = q . k implies p . k = z * v )
assume that
A12: k in Seg (len p) and
A13: v = q . k ; :: thesis: p . k = z * v
dom q = Seg n by A3, A4, A6, FINSEQ_1:17;
then I . k = q . k by A8, A12, FUNCT_1:47;
then H . k = z * v by A5, A12, A13, A10;
hence p . k = z * v by A8, A12, A11, FUNCT_1:47; :: thesis: verum
end;
n + 1 in Seg (n + 1) by FINSEQ_1:4;
then ( n + 1 in dom H & n + 1 in dom I ) by A3, A4, FINSEQ_1:def 3;
then reconsider v1 = H . (n + 1), v2 = I . (n + 1) as VECTOR of V by FUNCT_1:102;
A14: v1 = z * v2 by A4, A5, FINSEQ_1:4;
A15: dom q = Seg (len q) by FINSEQ_1:def 3;
dom p = Seg (len p) by FINSEQ_1:def 3;
hence Sum H = (Sum p) + v1 by A4, A8, RLVECT_1:38
.= (z * (Sum q)) + (z * v2) by A2, A8, A7, A9, A14
.= z * ((Sum q) + v2) by Def2
.= z * (Sum I) by A3, A4, A7, A15, RLVECT_1:38 ;
:: thesis: verum
end;
then A16: for n being Nat st S1[n] holds
S1[n + 1] ;
now :: thesis: for H, I being FinSequence of the carrier of V st len H = len I & len H = 0 & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) holds
Sum H = z * (Sum I)
let H, I be FinSequence of the carrier of V; :: thesis: ( len H = len I & len H = 0 & ( for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ) implies Sum H = z * (Sum I) )
assume that
A17: len H = len I and
A18: len H = 0 and
for k being Nat
for v being VECTOR of V st k in Seg (len H) & v = I . k holds
H . k = z * v ; :: thesis: Sum H = z * (Sum I)
Sum H = 0. V by A18, Lm2;
hence Sum H = z * (Sum I) by A17, A18, Lm2, Th1; :: thesis: verum
end;
then A19: S1[ 0 ] ;
for n being Nat holds S1[n] from NAT_1:sch 2(A19, A16);
 hence ( len F = len G & ( for k being Nat
for v being VECTOR of V st k in dom F & v = G . k holds
F . k = z * v ) implies Sum F = z * (Sum G) ) by A1; :: thesis: verum