let n be Nat; :: thesis: for M1, M2 being Matrix of n, REAL st - M1 is_less_or_equal_with M2 holds
M1 + M2 is Nonnegative
let M1, M2 be Matrix of n, REAL ; :: thesis: ( - M1 is_less_or_equal_with M2 implies M1 + M2 is Nonnegative )
assume A1:
- M1 is_less_or_equal_with M2
; :: thesis: M1 + M2 is Nonnegative
A2:
( Indices M1 = [:(Seg n),(Seg n):] & Indices M2 = [:(Seg n),(Seg n):] & Indices (- M1) = [:(Seg n),(Seg n):] & Indices (M1 + M2) = [:(Seg n),(Seg n):] )
by MATRIX_1:25;
for i, j being Nat st [i,j] in Indices (M1 + M2) holds
(M1 + M2) * i,j >= 0
proof
let i,
j be
Nat;
:: thesis: ( [i,j] in Indices (M1 + M2) implies (M1 + M2) * i,j >= 0 )
assume A3:
[i,j] in Indices (M1 + M2)
;
:: thesis: (M1 + M2) * i,j >= 0
then
(- M1) * i,
j <= M2 * i,
j
by A1, A2, Def6;
then
- (M1 * i,j) <= M2 * i,
j
by A2, A3, Th2;
then
(M1 * i,j) + (M2 * i,j) >= 0
by XREAL_1:62;
hence
(M1 + M2) * i,
j >= 0
by A2, A3, MATRIXR1:25;
:: thesis: verum
end;
hence
M1 + M2 is Nonnegative
by Def4; :: thesis: verum