I have the following problem which I don't know how to solve, any help is appreciated.
Let $A,B$ and $C$ be $n \times n$ matrices. Suppose that $B$ and $C$ are symmetric.
Consider the matrix $$ M = \begin{bmatrix} A & B \\ C & -A^T \end{bmatrix} $$
Show that if $\lambda$ is an eigenvalue of $M$ then so is $-\lambda$.
My idea:
I know that for $\lambda$ to be an eigenvalue of $A$, $det(A-λI)$ has to be zero, then you can work out this determinant and get the eigenvalues. However I don't know if you need to solve this matrix like that since its entries aren't numbers but matrices. Besides that, I'm quite sure this isn't the way to tackle this problem since you don't need the values of the eigenvectors but you just have to show that if $\lambda$ is an eigenvalue of M then so is $-\lambda$.
Thanks in advance :)