let n be Nat; :: thesis: for M1, M2 being Matrix of n,REAL st M1 is Nonnegative holds

M2 is_less_or_equal_with M1 + M2

let M1, M2 be Matrix of n,REAL; :: thesis: ( M1 is Nonnegative implies M2 is_less_or_equal_with M1 + M2 )

A1: ( Indices M1 = [:(Seg n),(Seg n):] & Indices M2 = [:(Seg n),(Seg n):] ) by MATRIX_0:24;

assume A2: M1 is Nonnegative ; :: thesis: M2 is_less_or_equal_with M1 + M2

for i, j being Nat st [i,j] in Indices M2 holds

M2 * (i,j) <= (M1 + M2) * (i,j)

M2 is_less_or_equal_with M1 + M2

let M1, M2 be Matrix of n,REAL; :: thesis: ( M1 is Nonnegative implies M2 is_less_or_equal_with M1 + M2 )

A1: ( Indices M1 = [:(Seg n),(Seg n):] & Indices M2 = [:(Seg n),(Seg n):] ) by MATRIX_0:24;

assume A2: M1 is Nonnegative ; :: thesis: M2 is_less_or_equal_with M1 + M2

for i, j being Nat st [i,j] in Indices M2 holds

M2 * (i,j) <= (M1 + M2) * (i,j)

proof

hence
M2 is_less_or_equal_with M1 + M2
; :: thesis: verum
let i, j be Nat; :: thesis: ( [i,j] in Indices M2 implies M2 * (i,j) <= (M1 + M2) * (i,j) )

assume A3: [i,j] in Indices M2 ; :: thesis: M2 * (i,j) <= (M1 + M2) * (i,j)

then M1 * (i,j) >= 0 by A2, A1;

then M2 * (i,j) <= (M1 * (i,j)) + (M2 * (i,j)) by XREAL_1:31;

hence M2 * (i,j) <= (M1 + M2) * (i,j) by A1, A3, MATRIXR1:25; :: thesis: verum

end;assume A3: [i,j] in Indices M2 ; :: thesis: M2 * (i,j) <= (M1 + M2) * (i,j)

then M1 * (i,j) >= 0 by A2, A1;

then M2 * (i,j) <= (M1 * (i,j)) + (M2 * (i,j)) by XREAL_1:31;

hence M2 * (i,j) <= (M1 + M2) * (i,j) by A1, A3, MATRIXR1:25; :: thesis: verum