let K be Field; :: thesis: for A, B being Matrix of K
for N being finite without_zero Subset of NAT st N c= dom A & not N is empty holds
Solutions_of A,B c= Solutions_of (Segm A,N,(Seg (width A))),(Segm B,N,(Seg (width B)))
let A, B be Matrix of K; :: thesis: for N being finite without_zero Subset of NAT st N c= dom A & not N is empty holds
Solutions_of A,B c= Solutions_of (Segm A,N,(Seg (width A))),(Segm B,N,(Seg (width B)))
let N be finite without_zero Subset of NAT ; :: thesis: ( N c= dom A & not N is empty implies Solutions_of A,B c= Solutions_of (Segm A,N,(Seg (width A))),(Segm B,N,(Seg (width B))) )
assume that
A1: N c= dom A and
A2: not N is empty ; :: thesis: Solutions_of A,B c= Solutions_of (Segm A,N,(Seg (width A))),(Segm B,N,(Seg (width B)))
dom A = Seg (len A) by FINSEQ_1:def 3;
then rng (Sgm N) = N by A1, FINSEQ_1:def 13;
hence Solutions_of A,B c= Solutions_of (Segm A,N,(Seg (width A))),(Segm B,N,(Seg (width B))) by A1, A2, Th42; :: thesis: verum