2. Graphing Quadratic Functions
x = 0
x = 1
(0, 2)
1. y = 4x2 – 7
2. y = x2 – 3x + 1
Find the axis of symmetry.
3. y = –2x2 + 4x + 3
(2, -12)5. y = x2 + 4x + 5 6. y = -2x2 + 2x – 8
Find the vertex and state whether the graph opens up or down.
x =
𝟑
𝟐
Warm-Up
3. Graphing Quadratic Functions
For a quadratic function in the form y = ax2 + bx + c,
when x = 0, y = c. The y-intercept of a quadratic function is c
Finding the Y intercept
Find the vertex and the y-intercept
1. y = x2 – 2 y = x2 – 4x + 4 y = -2x2 – 6x - 3
4. Graphing Quadratic FunctionsEffects of the a, b, & c values
With your graph paper, graph the function: y = x2
This is called the parent
function. All other quadratic
functions are simply
transformations of the parent.
For the parent function f(x) = x2:
• The axis of symmetry is x = 0, or
the y-axis.
• The vertex is (0, 0)
• The function has only one zero,
0.
6. Graphing Quadratic Functions
The value of a in a quadratic function determines not only the
direction a parabola opens, but also the width of the parabola.
Effects of the a, b, & c values
7. Graphing Quadratic FunctionsEffects of the a, b, & c values
Example 1A: Comparing Widths of Parabolas
Order the functions from narrowest graph to widest.
f(x) = 3x2, g(x) = 0.5x2, h(x) = 1.5x2
f(x) = 3x2
h(x) = 1.5x2
g(x) = 0.5x2
The function with the
narrowest graph has the
greatest |a|.
9. Graphing Quadratic FunctionsEffects of the a, b, & c values
The value of 'c' in a quadratic function determines not only the
value of the y-intercept but also a vertical translation of the graph
of f(x) = ax2 up or down the y-axis.
Tomorrow we look at how the 'b'
value affects the parabola
10. Graphing Quadratic FunctionsComparing Graphs of Quadratic Functions
Compare the graph of the function with the graph of f(x) = x2
opens downward and the graph of
f(x) = x2 opens upward.
g(x) =
−𝟏
𝟒
x2 + 3• The graph of
11. Graphing Quadratic FunctionsCompare the graph of each the graph of f(x) = x2.
g(x) = –x2 – 4
• The graph of g(x) = –x2 – 4
opens downward and the graph
of f(x) = x2opens upward.
The vertex of g(x) = –x2 – 4
f(x) = x2 is (0, 0).
is translated 4 units down to (0, –4).
• The vertex of
• The axis of symmetry is the same.
12. Graphing Quadratic Functions
SOLUTION
Identify the coefficients of the function.
STEP 1
STEP 2 Find the AOS and the vertex. Calculate the x - coordinate.
Then find the y - coordinate of the vertex.
(–2)
2(1)= = 1x =
b
2a
–
y = 12 – 2 • 1 + 1 = – 2
The coefficients are a = 1, b = – 2, and c = – 1.
Because a > 0, the parabola opens up.
Graph a function of the form y = ax2 + bx + c
y = x2 – 2x – 1
Label the axis of symmetry. and the vertexGraph the function
13. Graphing Quadratic FunctionsGraph a function of the form y = ax2 + bx + c
SOLUTION
Identify the coefficients of the function.STEP 1
STEP 2 Find the AOS and the vertex. Calculate the x - coordinate.
x =
b
2a =
(– 8)
2(2)
– –
Then find the y - coordinate of the vertex.
y = 2(2)2 – 8(2) + 6 = – 2
So, the vertex is (2, – 2). Plot this point.
The coefficients are a = 2, b = – 8, and c = 6. Because a > 0, the
parabola opens up.
= 2
y = 2x2 – 8x + 6.Graph
14. Graphing Quadratic FunctionsSTEP 3 Draw the axis of symmetry
STEP 4 Identify the y - intercept c,
STEP 5 Find the roots by using one of the
solution methods, (factoring, for now)
(x - 3)(2x - 2); the solutions are:
Plot the point (0, 6). Then reflect this point over
the axis of symmetry to plot another point, (4, 6).
Plot the solutionsx = 3, x = 1
STEP 6 Draw a parabola through
the plotted points.
y = 2x2 – 8x + 6. factor how?
y = 2x2 – 6x - 2x + 6 =
x = 2.
15. Graphing Quadratic Functions
STEP 1 Identify the coefficients of the function.
STEP 2 Find the vertex. Calculate the x - coordinate.
STEP 3 Draw the axis of symmetry
STEP 4 Identify the y - intercept c,
STEP 5 Find the roots by using one of the solution methods,
We are unable to find the roots with our knowledge for now, so
we'll select another value of x and solve for y. The AOS is 1, so let's
choose x = -1. Find the y coordinate.
The two other points are (–1, 10) and (–2, 25)
STEP 6 Reflect this point over the AOS to plot another point.
STEP 7 Graph the parabola
Graph a function of the form y = ax2 + bx + c
y = 3x2 – 6x + 1, Plot 5 points and draw the curveGraph
17. Graphing Quadratic FunctionsGraph a function of the form y = ax2 + bx + c
Step 1: Find the axis of symmetry.
Use x = . Substitute 1 for a
and –6 for b.
The axis of symmetry is x = 3.
= 3
y = x2 – 6x + 9 Rewrite in standard form.
y + 6x = x2 + 9Graph the quadratic function
18. Graphing Quadratic Functions
Step 2: Find the vertex.
Simplify.= 9 – 18 + 9
= 0
The vertex is (3, 0).
The x-coordinate of the vertex is 3.
Substitute 3 for x.
The y-coordinate is 0.
y = x2 – 6x + 9
y = 32 – 6(3) + 9
Graph a function of the form y = ax2 + bx + c
19. Graphing Quadratic Functions
Step 3: Find the y-intercept.
y = x2 – 6x + 9
y = x2 – 6x + 9
The y-intercept is 9; the graph passes through (0, 9).
Identify c.
Graph a function of the form y = ax2 + bx + c
20. Graphing Quadratic Functions
Step 4 Find two more points on the same side of the axis of
symmetry as the point containing the y- intercept.
Since the axis of symmetry is x = 3, choose x-values less
than 3.
Let x = 2
y = 1(2)2 – 6(2) + 9
= 4 – 12 + 9
= 1
Let x = 1
y = 1(1)2 – 6(1) + 9
= 1 – 6 + 9
= 4
Substitute
x-coordinates.
Simplify.
Two other points are (2, 1) and (1, 4).
Graph a function of the form y = ax2 + bx + c
21. Graphing Quadratic Functions
Step 5 Graph the axis of symmetry,
the vertex, the point containing the
y-intercept, and two other points.
Step 6 Reflect the points across
the axis of symmetry. Connect
the points with a smooth curve.
y = x2 – 6x + 9
x = 3
(3, 0)
(0, 9)
(2, 1)
(1, 4)
(6, 9)
(5, 4)
(4, 1)
x = 3
(3, 0)
