det(\left(\begin{matrix}1&2&3\\2&5&3\\1&0&8\end{matrix}\right))

Find the determinant of the matrix using the method of diagonals.

\left(\begin{matrix}1&2&3&1&2\\2&5&3&2&5\\1&0&8&1&0\end{matrix}\right)

Extend the original matrix by repeating the first two columns as the fourth and fifth columns.

5\times 8+2\times 3=46

Starting at the upper left entry, multiply down along the diagonals, and add the resulting products.

5\times 3+8\times 2\times 2=47

Starting at the lower left entry, multiply up along the diagonals, and add the resulting products.

46-47

Subtract the sum of the upward diagonal products from the sum of the downward diagonal products.

-1

Subtract 47 from 46.

det(\left(\begin{matrix}1&2&3\\2&5&3\\1&0&8\end{matrix}\right))

Find the determinant of the matrix using the method of expansion by minors (also known as expansion by cofactors).

det(\left(\begin{matrix}5&3\\0&8\end{matrix}\right))-2det(\left(\begin{matrix}2&3\\1&8\end{matrix}\right))+3det(\left(\begin{matrix}2&5\\1&0\end{matrix}\right))

To expand by minors, multiply each element of the first row by its minor, which is the determinant of the 2\times 2 matrix created by deleting the row and column containing that element, then multiply by the element's position sign.

5\times 8-2\left(2\times 8-3\right)+3\left(-5\right)

For the 2\times 2 matrix \left(\begin{matrix}a&b\\c&d\end{matrix}\right), the determinant is ad-bc.

40-2\times 13+3\left(-5\right)

Simplify.

-1

Add the terms to obtain the final result.