let n be Nat; for K being Field
for M being Matrix of n,K
for i being Nat st i in Seg n holds
LaplaceExpC M,i = LaplaceExpL (M @ ),i
let K be Field; for M being Matrix of n,K
for i being Nat st i in Seg n holds
LaplaceExpC M,i = LaplaceExpL (M @ ),i
let M be Matrix of n,K; for i being Nat st i in Seg n holds
LaplaceExpC M,i = LaplaceExpL (M @ ),i
let i be Nat; ( i in Seg n implies LaplaceExpC M,i = LaplaceExpL (M @ ),i )
assume A1:
i in Seg n
; LaplaceExpC M,i = LaplaceExpL (M @ ),i
set LL = LaplaceExpL (M @ ),i;
set LC = LaplaceExpC M,i;
reconsider I = i as Element of NAT by ORDINAL1:def 13;
A2:
len (LaplaceExpL (M @ ),i) = n
by Def7;
A3:
len (LaplaceExpC M,i) = n
by Def8;
now let k be
Nat;
( 1 <= k & k <= n implies (LaplaceExpC M,i) . k = (LaplaceExpL (M @ ),i) . k )assume that A4:
1
<= k
and A5:
k <= n
;
(LaplaceExpC M,i) . k = (LaplaceExpL (M @ ),i) . k
k in NAT
by ORDINAL1:def 13;
then A6:
k in Seg n
by A4, A5;
dom (LaplaceExpC M,i) = Seg n
by A3, FINSEQ_1:def 3;
then A7:
(LaplaceExpC M,i) . k = (M * k,I) * (Cofactor M,k,I)
by A6, Def8;
Indices M = [:(Seg n),(Seg n):]
by MATRIX_1:25;
then A8:
[k,i] in Indices M
by A1, A6, ZFMISC_1:106;
dom (LaplaceExpL (M @ ),i) = Seg n
by A2, FINSEQ_1:def 3;
then A9:
(LaplaceExpL (M @ ),i) . k = ((M @ ) * I,k) * (Cofactor (M @ ),I,k)
by A6, Def7;
Cofactor M,
k,
I = Cofactor (M @ ),
I,
k
by A1, A6, Th24;
hence
(LaplaceExpC M,i) . k = (LaplaceExpL (M @ ),i) . k
by A8, A7, A9, MATRIX_1:def 7;
verum end;
hence
LaplaceExpC M,i = LaplaceExpL (M @ ),i
by A3, A2, FINSEQ_1:18; verum