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Convert the equation into vertex form, then solve the equation x^2 + 6x + 8 = 0

User Matthew Lund
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The Vertex form of a Quadratic function is:


f(x)=a\mleft(x-h\mright)^2+k

Where the vertex of the paraboola is:


(h,k)

Given the following Quadratic equation:


x^2+6x+8=0​

You need to convert it into Vertex form by completing the square. The steps are shown below:

- Identify the coefficient of the term with the variable "x". In this case, this is:


b=6

- Divide it by 2 and square it:


((b)/(2))^2=((6)/(2))^2=3^2

- Add and subtract the number obtained (in the right side of the equation):


x^2+6x+8+3^2-3^2=0​

- Order it and express it as a square of a binomial, you get:


\begin{gathered} (x^2+6x+3^2)+8-3^2=0​ \\ (x+3)^2-1=0 \end{gathered}

- Add 1 to both sides of the equation:


\begin{gathered} (x+3)^2-1+1=0+1 \\ (x+3)^2=1 \end{gathered}

To solve the equation you must take the square root of both sides of the equation:


\begin{gathered} \sqrt[]{(x+3)^2}=\pm\sqrt[]{1} \\ \\ x+3=\pm1 \end{gathered}

Finally, subtract 3 from both sides of the equation:


\begin{gathered} x+3-3=\pm1-3 \\ \\ x=-3\pm1 \\ \\ x_1=-3+1=-2 \\ x_2=-3-1=-4 \end{gathered}

The answer is:

- Vertex form:


(x+3)^2=1

- Solutions:


\begin{gathered} x_1=-2 \\ x_2=-4 \end{gathered}

User FalconNL
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