let n be Nat; for R being Ring
for M1, M2 being Matrix of n,R st M1 commutes_with M2 holds
M1 + M1 commutes_with M2 + M2
let R be Ring; for M1, M2 being Matrix of n,R st M1 commutes_with M2 holds
M1 + M1 commutes_with M2 + M2
let M1, M2 be Matrix of n,R; ( M1 commutes_with M2 implies M1 + M1 commutes_with M2 + M2 )
assume A1:
M1 commutes_with M2
; M1 + M1 commutes_with M2 + M2
A2:
len M2 = n
by MATRIX_0:24;
A3:
len (M1 + M1) = n
by MATRIX_0:24;
A4:
width M2 = n
by MATRIX_0:24;
A5:
( width M1 = n & len M1 = n )
by MATRIX_0:24;
width (M1 + M1) = n
by MATRIX_0:24;
then (M1 + M1) * (M2 + M2) =
((M1 + M1) * M2) + ((M1 + M1) * M2)
by A2, A4, MATRIX_4:62
.=
((M1 * M2) + (M1 * M2)) + ((M1 + M1) * M2)
by A2, A5, MATRIX_4:63
.=
((M1 * M2) + (M1 * M2)) + ((M1 * M2) + (M1 * M2))
by A2, A5, MATRIX_4:63
.=
((M2 * M1) + (M1 * M2)) + ((M1 * M2) + (M1 * M2))
by A1
.=
((M2 * M1) + (M2 * M1)) + ((M1 * M2) + (M1 * M2))
by A1
.=
((M2 * M1) + (M2 * M1)) + ((M2 * M1) + (M2 * M1))
by A1
.=
(M2 * (M1 + M1)) + ((M2 * M1) + (M2 * M1))
by A4, A5, MATRIX_4:62
.=
(M2 * (M1 + M1)) + (M2 * (M1 + M1))
by A4, A5, MATRIX_4:62
.=
(M2 + M2) * (M1 + M1)
by A2, A4, A3, MATRIX_4:63
;
hence
M1 + M1 commutes_with M2 + M2
; verum