let K be Field; for A, B, C being Matrix of K st len B = len C & width B = width C & width A = len B & len A > 0 & len B > 0 holds
A * (B + C) = (A * B) + (A * C)
let A, B, C be Matrix of K; ( len B = len C & width B = width C & width A = len B & len A > 0 & len B > 0 implies A * (B + C) = (A * B) + (A * C) )
assume that
A1:
len B = len C
and
A2:
width B = width C
and
A3:
width A = len B
and
A4:
len A > 0
and
A5:
len B > 0
; A * (B + C) = (A * B) + (A * C)
A6:
len (B + C) = len B
by MATRIX_3:def 3;
then A7:
len (A * (B + C)) = len A
by A3, MATRIX_3:def 4;
A8:
( width (B + C) = width B & width (A * (B + C)) = width (B + C) )
by A3, A6, MATRIX_3:def 3, MATRIX_3:def 4;
then reconsider M1 = A * (B + C) as Matrix of len A, width B,K by A4, A7, MATRIX_1:20;
A9:
( len (A * B) = len A & width (A * B) = width B )
by A3, MATRIX_3:def 4;
then A10:
Indices M1 = Indices (A * B)
by A7, A8, Th55;
A11:
( len ((A * B) + (A * C)) = len (A * B) & width ((A * B) + (A * C)) = width (A * B) )
by MATRIX_3:def 3;
then reconsider M2 = (A * B) + (A * C) as Matrix of len A, width B,K by A4, A9, MATRIX_1:20;
( len (A * C) = len A & width (A * C) = width C )
by A1, A3, MATRIX_3:def 4;
then A12:
Indices M1 = Indices (A * C)
by A2, A7, A8, Th55;
for i, j being Nat st [i,j] in Indices M1 holds
M1 * (i,j) = M2 * (i,j)
proof
let i,
j be
Nat;
( [i,j] in Indices M1 implies M1 * (i,j) = M2 * (i,j) )
len (Line (A,i)) = len B
by A3, MATRIX_1:def 8;
then A13:
len (Line (A,i)) = len (Col (B,j))
by MATRIX_1:def 9;
reconsider q1 =
Line (
A,
i),
q2 =
Col (
B,
j),
q3 =
Col (
C,
j) as
Element of
(len B) -tuples_on the
carrier of
K by A1, A3;
A14:
len (mlt ((Line (A,i)),(Col (B,j)))) =
len (mlt (q1,q2))
.=
len B
by FINSEQ_1:def 18
.=
len (mlt (q1,q3))
by FINSEQ_1:def 18
.=
len (mlt ((Line (A,i)),(Col (C,j))))
;
(
dom B = Seg (len B) & 1
+ 0 <= len B )
by A5, FINSEQ_1:def 3, NAT_1:13;
then A15:
1
in dom B
by FINSEQ_1:3;
len (Line (A,i)) = len C
by A1, A3, MATRIX_1:def 8;
then A16:
len (Line (A,i)) = len (Col (C,j))
by MATRIX_1:def 9;
assume A17:
[i,j] in Indices M1
;
M1 * (i,j) = M2 * (i,j)
then A18:
M2 * (
i,
j) =
((A * B) * (i,j)) + ((A * C) * (i,j))
by A10, MATRIX_3:def 3
.=
((Line (A,i)) "*" (Col (B,j))) + ((A * C) * (i,j))
by A3, A10, A17, MATRIX_3:def 4
.=
((Line (A,i)) "*" (Col (B,j))) + ((Line (A,i)) "*" (Col (C,j)))
by A1, A3, A12, A17, MATRIX_3:def 4
.=
((Line (A,i)) "*" (Col (B,j))) + (Sum (mlt ((Line (A,i)),(Col (C,j)))))
by FVSUM_1:def 10
.=
(Sum (mlt ((Line (A,i)),(Col (B,j))))) + (Sum (mlt ((Line (A,i)),(Col (C,j)))))
by FVSUM_1:def 10
;
j in Seg (width B)
by A8, A17, ZFMISC_1:106;
then A19:
[1,j] in Indices B
by A15, ZFMISC_1:106;
M1 * (
i,
j) =
(Line (A,i)) "*" (Col ((B + C),j))
by A3, A6, A17, MATRIX_3:def 4
.=
Sum (mlt ((Line (A,i)),(Col ((B + C),j))))
by FVSUM_1:def 10
.=
Sum (mlt ((Line (A,i)),((Col (B,j)) + (Col (C,j)))))
by A1, A19, Th60
.=
Sum ((mlt ((Line (A,i)),(Col (B,j)))) + (mlt ((Line (A,i)),(Col (C,j)))))
by A13, A16, Th57
.=
(Sum (mlt ((Line (A,i)),(Col (B,j))))) + (Sum (mlt ((Line (A,i)),(Col (C,j)))))
by A14, Th61
;
hence
M1 * (
i,
j)
= M2 * (
i,
j)
by A18;
verum
end;
hence
A * (B + C) = (A * B) + (A * C)
by A7, A8, A9, A11, MATRIX_1:21; verum