How do you find the vertex of $y = - x^{2} + 4 x + 12$ $y=-x^2+4x+12$ ?

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How do you find the vertex of $y = - x^{2} + 4 x + 12$ $y=-x^2+4x+12$ ?

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Answer 1 · 2017-08-03T13:08:14

Let's look at the quadratic formula:

$x = \frac{- b \pm \sqrt{b^{2} - 4 a c}}{2 a}$ $x = (-b +- sqrt(b^2 - 4ac))/(2a)$

Knowing parabolas are symmetric around the vertex, we can infer that the axis lies on the vertical line defined by the non-variant part of the quadratic formula (a.k.a the one not affected by the $\pm$ $+-$ )

$Non variant part: \frac{- b}{2 a}$ $"Non variant part: " (-b)/(2a)$

We know the result of that (after plugging $a = - 1, b = 4$ $a = -1, b = 4$ ) will be the x-value of the vertex. To find the y-value, we simply plug in the x-value into the function to see its value.

So, generalising, the vertex of a quadratic function $f (x)$ $f(x)$ is always:

$V (\frac{- b}{2 a}, f (\frac{- b}{2 a}))$ $V((-b)/(2a), f((-b)/(2a)))$

In this case it's $V (2, 16)$ $V(2,16)$

graph{-x^2 + 4x +12 [-16.81, 19.23, -0.73, 17.29]}

Answer 2 · 2017-08-03T13:16:57

$(2, 16)$ $(2,16)$

Explanation:

Well, firstly find the axis of symmetry for the parabola. The formula for this axis of symmetry is $- \frac{b}{2 a}$ $-b/(2a)$ .

Now you may not know what $a$ $a$ and $b$ $b$ stand for, but this $a x^{2} + b x + c$ $ax^2 + bx +c$ formula that you have seen this is the general equation of a parabola.

Notice the $a$ $a$ in front of the $x^{2}$ $x^2$ that is a constant that is your $a$ $a$ in the axis of symmetry equation $- \frac{b}{2 a}$ $-b/(2a)$ . Similarly, the $b$ $b$ in front of the $x$ $x$ in your general parabola equation is the $b$ $b$ in your axis of symmetry equation $- \frac{b}{2 a}$ $-b/(2a)$ .

So sub in your values for $a$ $a$ and $b$ $b$ and you will get

$\frac{- 4}{- 2} = 2$ $(-4)/-2 = 2$

Thus your axis of symmetry is $x = 2$ $x = 2$ .

To find your vertex, sub this $2$ $2$ into your main equation which was

$y = - x^{2} + 4 x + 12$ $y = -x^2 + 4x + 12$

So

$- {(2)}^{2} + 4 \cdot 2 + 12 = 16$ $-(2)^2 + 4 * 2 + 12 = 16$

Finally, your vertex is at $(2, 16)$ $(2,16)$ .

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How do you find the vertex of $y = - x^{2} + 4 x + 12$ $y=-x^2+4x+12$ ?

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