Now let’s get started on completing the square. First, we need one-half the coefficient of the \(x\) and \(y\) term, square each and the add/subtract those numbers in the appropriate places as follows,

\[\require{\color}{\left( {\frac{{ - 8}}{2}} \right)^2} = {\left( { - 4} \right)^2} = \,{\color{Red} 16}\hspace{0.25in}{\left( {\frac{4}{2}} \right)^2} = {\left( 2 \right)^2} = \,{\color{ProcessBlue} 4}\] \[\require{\color}4\left( {{x^2} - 8x \,{\color{Red} + 16 - 16}} \right) - \left( {{y^2} + 4y \,{\color{ProcessBlue} + 4 - 4}} \right) + 24 = 0\]

Be careful you add/subtract these numbers and make sure you put them in the parenthesis!

Show Step 3

Next, we need to factor the \(x\) and \(y\) terms and add up all the constants.

\[\require{\color}\begin{align*}4\left( {{{\left( {x - 4} \right)}^2} \,{\color{Red} - 16}} \right) - \left( {{{\left( {y + 2} \right)}^2} \,{\color{ProcessBlue} - 4}} \right) + 24 & = 0\\ 4{\left( {x - 4} \right)^2} - {\left( {y + 2} \right)^2} + 24 \,{\color{Red} - 64} \,{\color{ProcessBlue} + 4} & = 0\\ 4{\left( {x - 4} \right)^2} - {\left( {y + 2} \right)^2} - 36 & = 0\end{align*}\]

When adding the constants up, make sure to multiply the 4 through the \(x\) terms and the -1 through the \(y\) terms before adding the constants up.

Show Step 4

To finish things off we’ll first move the 36 to the other side of the equation.

\[4{\left( {x - 4} \right)^2} - {\left( {y + 2} \right)^2} = 36\]

To get this into standard form we need a one on the right side of the equation. To get this all we need to do is divide everything by 36 and we’ll do a little simplification work on the \(x\) term.

\[\frac{{4{{\left( {x - 4} \right)}^2}}}{{36}} - \frac{{{{\left( {y + 2} \right)}^2}}}{{36}} = 1\hspace{0.25in} \Rightarrow \hspace{0.25in}\require{bbox} \bbox[2pt,border:1px solid black]{{\frac{{{{\left( {x - 4} \right)}^2}}}{9} - \frac{{{{\left( {y + 2} \right)}^2}}}{{36}} = 1}}\]