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Math 20 Pre-Calculus

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Title: Math 20 Pre-Calculus


1
C. Quadratic Functions
  • Math 20 Pre-Calculus
  • P20.7
  • Demonstrate understanding of quadratic functions
    of the form   yax²bxc and of their graphs,
    including vertex, domain and range, direction
    of, opening, axis of symmetry, x- and
    y-intercepts.

2
Key Terms
3
  • Quadratic Functions occur in a wide variety of
    real world situations. In this unit we will
    investigate functions and use them in math
    modelling and problem solving.

4
1. Vertex Form
  • P20.7
  • Demonstrate understanding of quadratic functions
    of the form   yax²bxc and of their graphs,
    including
  • vertex
  • domain and range
  • direction of opening
  • axis of symmetry
  • x- and y-intercepts.

5
1. Vertex Form
  • Investigate p. 143

6
  • The graph of a Quadratic Function is a parabola
  • When the graph opens up the vertex is the lowest
    point and when it opens down the vertex is the
    highest point

7
  • The y-coordinate of the vertex is called the min
    value or max value depending of which way it
    opens.
  • The parabola is symmetrical about a line called
    the axis of symmetry. The line divides the graph
    into two equal halves, left and right.
  • So if you know the a of s and a point you can
    find another point (unless the point is the
    vertex)

8
  • The A of S intersects the vertex
  • The x-coordinate of the vertex is the equation of
    the A of S.

9
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10
  • Quadratic Function in vertex form f(x)
    a(x-p)2q are very easy to graph.
  • a, p, and q tell you what you need.
  • (p,q) Vertex
  • Opens up a
  • Opens down a
  • Larger a narrower parabola
  • Smaller a wider parabola

11
Example 1
12
Example 2
13
Example 3
14
Example 4
15
Key Ideas p.156
16
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17
Practice
  • Ex. 3.1 (p.157) 1-14
  • 4-18

18
2. Standard Form
  • P20.7
  • Demonstrate understanding of quadratic functions
    of the form   yax²bxc and of their graphs,
    including
  • vertex
  • domain and range
  • direction of opening
  • axis of symmetry
  • x- and y-intercepts.

19
2. Standard Form
20
  • Recall that the Standard form of a quadratic
    function is
  • f(x) ax2bxc or y
    ax2bxc
  • Where a, b, c are real numbers and a ? 0
  • a determines width of graph (smaller a wider
    graph) and opening (a up and a down)
  • b shifts the graphs left and right
  • c shifts the graph up and down

21
  • We can expand f(x) a(x-p)2q to get f(x)
    ax2bxc , which will allow us to see the
    relation between the variable coefficients in
    each.

22
  • So,
  • b -2ap or
  • And
  • c ap2 q or q c ap2

23
  • Recall that to determine the x-coordinate of the
    vertex, you use x p.
  • So the x-coordinate of the vertex is

24
Example 1
25
Example 2
26
Example 3
27
Key Ideas p.173
28
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29
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30
Practice
  • Ex. 3.2 (p.174) 1-9, 11-17 odds
  • 5-25 odds

31
3. Completing the Square
  • P20.7
  • Demonstrate understanding of quadratic functions
    of the form   yax²bxc and of their graphs,
    including
  • vertex
  • domain and range
  • direction of opening
  • axis of symmetry
  • x- and y-intercepts.

32
3. Completing the Square
  • You can express a quadratic function in vertex
    form, f(x) a(x-p)2q or standard form f(x)
    ax2bxc
  • We already know we can go from vertex to standard
    by just expanding
  • However to graph by hand it is much easier if the
    function is in vertex form because we have the
    vertex, axis of symmetry and max or min of the
    graph

33
  • So to be able to turn a standard form function
    into vertex form would be advantageous.
  • This process is called Completing the Square

34
  • What we want to be able to do is rewrite the
    trinomial as a binomial squared. (x5)(x5)
    (x5)2

35
  • Lets complete the square

36
  • If there is a coefficient in front of the x2 term
    we have to add a couple steps.
  • Complete the Square

37
Example 1
38
Example 2
39
Example 3
40
Example 4
41
Key Ideas p.192
42
Practice
  • Ex. 3.3 (p.192) 1-9, 10-18 evens
  • 1-9 odds in each, 10-28 evens
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