Answer
$[A|B]=\left[\begin{array}{rrr|r}
{2}&{3}&{-4}&{0}\\
{1}&{0}&{-5}&{-2}\\
{1}&{2}&{-3}&{-2}\end{array}\right]$
Work Step by Step
The standard form of a linear equation can be expressed as:
$$a_{i1}x_{1}+a_{i2}x_{2}+...+a_{in}x_{n}=b_{i}$$
where the index $i$ indicates that it is the i-th equation of a system of equations.
In order to write the augmented matrix $[A|B]$ of a system of equations in standard form, we must follow some important points:
1. To express a system in matrix form, we must extract the coefficients of the variables and constants.
2. Draw a vertical line to separate the coefficient entries from the constants (essentially replacing the equal signs).
3. The entries of the coefficient matrix $A=[a_{ij}]$ must be placed to the left of the lline.
4. The constants of the $B=[b_{i}]$ must be placed to the right of the line.
We rewrite the system in standard form as: $\left\{\begin{array}{llll}
2x & +3y & -4z & =0\\
x & & -5z & =-2\\
x & +2y & -3z & =-2
\end{array}\right.$
Now, we have: $ A=\left[\begin{array}{lll}
2 & 3 & -4\\
1 & 0 & -5\\
1 & 2 & -3
\end{array}\right]$ and $B=\left[\begin{array}{l}
0\\
-2\\
-2
\end{array}\right]$
Finally, we can write the system as an augmented matrix $[A|B]$ as follows:
$[A|B]=\left[\begin{array}{rrr|r}
{2}&{3}&{-4}&{0}\\
{1}&{0}&{-5}&{-2}\\
{1}&{2}&{-3}&{-2}\end{array}\right]$