Solve by using the Completing the Square Method:

x^2+18x+67=0

Question

Solve by using the Completing the Square Method:

x^2+18x+67=0

terenzreignz · Answer

This is probably best for AFTER this problem is done, but try to read through this if you have time ^_^

terenzreignz · Answer

Completing the Square 101
Imagine you have something of the form
$$\Large z^2 + \color{purple}pz = k$$
And for some reason or another, you need to express it in terms of a perfect square trinomial.

The first thing to watch out for is to make sure that the square bit... (this part)$$\Large \color{red}{z^2 }+ \color{purple}pz = k$$ is unadorned... meaning, it has 

no number next to it... if it does, well, remedy it by dividing the entire expression by that number...

So now, pay attention to the coefficient of the 'unsquared' variable, in this case, $\large \color{purple}p$.  What you need to do is halve it, resulting in $\Large 

\frac{\color{purple}p}{2}$  and then square it, yielding $\Large \frac{\color{purple}p^2}{4}$.

Next, you add this to both sides of your equation, like so..
$$\Large z^2 + \color{purple}pz+\frac{\color{purple}p^2}4 = k+\frac{\color{purple}p^2}{4}$$

You'll notice that the left side is now a perfect square, in particular, the square of $\Large z+\frac{\color{purple}p}2$...
$$\Large \left(z+\frac{\color{purple}p}2\right)^2=k+\frac{\color{purple}p^2}{4}$$

And that's it! 
You have successfully 'completed the square'
:)

[[EXAMPLE]]
[USING COMPLETING THE SQUARE TO SOLVE A SIMPLE QUADRATIC EQUATION]
Say we have $$\Large 4x^2 -8x=60$$First of all, you'll notice that the coefficient of the square $\large x^2$ is not 1, so we had best get rid of that coefficient by dividing the entire expression by  it (-4). And we get
$$\Large x^2 \color{purple}{-2}x=15$$
Now, the coefficient of the unsquared x is -2. Half of that is -1, and the square of -1 is 1.

We therefore add 1 to both sides of the equation, like so
$$\Large x^2-2x \color{blue}{+1}=15\color{blue}{+1} $$

Notice now that the left-hand side of the equation is now a perfect square trinomial, specifically, it is the square of $\large x-1$.
Thus, the equation is as follows:
$$\Large (x-1)^2 = 16$$
now, extracting the square roots of both sides of the equation, (and be careful, you must consider the positive and negative square roots of the constant 16 in equations like this)
$$\Large x-1=\pm 4$$
$$\Large x = 1\pm 4$$Which means 
x could either be 
1+4 =5
or
1-4 = -3

Indeed, plugging either of these values in checks out for our original equation
$$\Large 4x^2 -8x = 60 $$

And that... is the basic principle of completing the square 
^_^

terenzreignz · Answer

TL;DR.

First step would be to bring the constant to the other side. Can you do that?

grant330sims · Answer

Oh wait, isnt this when you divide x by 2, then square it?

terenzreignz · Answer

It is. But let's do it step by step. 
And it's not *x* that you divide by 2, it's its coefficient. In this case, it happens to be 18.

grant330sims · Answer

so it would be x^2 +18x+81=-67+81?

terenzreignz · Answer

That's good ^_^
Simplify the right-hand side, and express the left as the square of a binomial, in particular... which binomial?

grant330sims · Answer

Its  perfect square right? so its (x+9)^2=14?

terenzreignz · Answer

That's great.
Now just get the square root of both sides ^_^
[are you sure you needed help with this at all?]

grant330sims · Answer

Just needed help being reminded lol

terenzreignz · Answer

So... might as well finish it... do you have your answers?

grant330sims · Answer

O.k, question: i have x=-9 +/= Sqrt(14)??

terenzreignz · Answer

$$\Large x = -9\pm \sqrt{14}$$
Well done ^_^

grant330sims · Answer

Thanks man!

terenzreignz · Answer

No problem.