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Use this graph of y = 2x2 - 12x + 19 to find the vertex. Decide whether thevertex is a maximum or a minimum point.A. Vertex is a minimum point at (3, 1)B. Vertex is a maximum point at (1,7)C. Vertex is a minimum point at (1,3)D. Vertex is a maximum point at (3,1)

Use This Graph Of Y 2x2 12x 19 To Find The Vertex Decide Whether Thevertex Is A Maximum Or A Minimum PointA Vertex Is A Minimum Point At 3 1B Vertex Is A Maximu class=
Use This Graph Of Y 2x2 12x 19 To Find The Vertex Decide Whether Thevertex Is A Maximum Or A Minimum PointA Vertex Is A Minimum Point At 3 1B Vertex Is A Maximu class=

Sagot :

Hello there. To slve this question, we'll have to remembrer some properties about maximum and minimum in a quadratic function.

Given a quadratic function f as follows:

[tex]f(x)=ax^2+bx+c[/tex]

We can determine whether or not the vertex is a maximum or minimum by the signal of the leading coefficient a.

If a < 0, the concavity ofthe parabolai is facing down, hence it admits a maximum value at its vertex.

If a > 0, the concavity of the parabola is facing up, hence it admits a minimum value at its vertex.

As a cannot be equal to zero (otherwise we wouldn't have a quadratic equation), we use the coefficients to determine an expression for the coordinates of the vertex.

The vertex is, more generally, located in between the roots of the function.

t is easy to prove, y comlpleting hthe square, that the solutions of the equation

[tex]ax^2+bx+c=0[/tex]

are given as

[tex]x=\dfrac{-b\pm\sqrt{b^2-4ac}}{2a}[/tex]

Taking the arithmetic mean of these values, we get the x-coordinate of the vertex:

[tex]x_V=\dfrac{\dfrac{-b+\sqrt{b^2-4ac}}{2a}+\dfrac{-b-\sqrt{b^2-4ac}}{2a}}{2}=\dfrac{-\dfrac{2b}{2a}}{2}=-\dfrac{b}{2a}[/tex]

By evaluating the function at this point, we'll obtain the y-coordinate of the vertex:

[tex]f(x_V)=-\dfrac{b^2-4ac}{4a}[/tex]

With this, we can solve this question.

Given the function:

[tex]y=2x^2-12x+19[/tex]

First, notice the leadin coefficient is a = 2 , that is positive.

Hence it has a minimum point at its vertex.

To determine these coordinates, we use the other coefficients b = -12 and c = 19.

Plugging the values, we'll get

[tex]x_V=-\dfrac{-12}{2\cdot2}=\dfrac{12}{4}=3[/tex]

Plugging ths value in the function, ewe'll get

[tex]y_V=f(x_V)=2\cdot3^2-12\cdot3+19=2\cdot9-36+19=1[/tex]

Hence we say that the final answer is

Vertex is a minimum point at (3, 1)

As you can see in the gaph.