let n be Nat; :: thesis: for K being Field
for M1, M2 being Matrix of n,K st M1 = M2 * M1 & M1 is invertible holds
M1 commutes_with M2
let K be Field; :: thesis: for M1, M2 being Matrix of n,K st M1 = M2 * M1 & M1 is invertible holds
M1 commutes_with M2
let M1, M2 be Matrix of n,K; :: thesis: ( M1 = M2 * M1 & M1 is invertible implies M1 commutes_with M2 )
assume that
A1: M1 = M2 * M1 and
A2: M1 is invertible ; :: thesis: M1 commutes_with M2
A3: M1 ~ is_reverse_of M1 by A2, Def4;
A4: ( width M2 = n & len (M1 ~) = n ) by MATRIX_1:24;
A5: ( len M1 = n & width M1 = n ) by MATRIX_1:24;
M2 = M2 * (1. (K,n)) by MATRIX_3:19
.= M2 * (M1 * (M1 ~)) by A3, Def2
.= M1 * (M1 ~) by A1, A5, A4, MATRIX_3:33
.= 1. (K,n) by A3, Def2 ;
hence M1 commutes_with M2 by Th6; :: thesis: verum