Determinant Property: Seen it Before? True?

Dustinsfl · Oct 1, 2013

Has anyone seen this before? Is this true?
$$
\begin{vmatrix}
a & b+c & 1\\
b & a+c & 1\\
c & a+b & 1
\end{vmatrix} =
\begin{vmatrix}
a & b & 1\\
b & a & 1\\
c & a & 1
\end{vmatrix} +
\begin{vmatrix}
a & c & 1\\
b & c & 1\\
c & b & 1
\end{vmatrix}
$$
In this example this works but I don't know if this just a coincidence.

Evgeny.Makarov · Oct 1, 2013

Well, determinants are linear w.r.t. addition in any single row or column. (Wink)

Deveno · Oct 1, 2013

Determinants are multilinear, alternating functions of row or column vectors. If one adds the stipulation that:

$\det(I_n) = 1$

then these properties completely determine the determinant function.

Clearly one such function (the determinant function) with these properties exists. For a proof that the determinant function is the ONLY function with these properties, see:

http://www.millersville.edu/~bikenaga/linear-algebra/det-unique/det-unique.html

Determinant Property: Seen it Before? True?

Related to Determinant Property: Seen it Before? True?

1. What is the determinant property?

2. How is the determinant property calculated?

3. What is the significance of the determinant property?

4. Can the determinant property be seen in real-world scenarios?

5. Is the determinant property always seen before in mathematics?

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