Polynomial and Rational Functions. Copyright Cengage Learning. All rights reserved.

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2 Polynomial and Rational Functions Copyright Cengage Learning. All rights reserved.

2.1 Quadratic Functions Copyright Cengage Learning. All rights reserved.

What You Should Learn Analyze graphs of quadratic functions. Write quadratic functions in standard form and use the results to sketch graphs of functions. Find minimum and maximum values of quadratic functions in real-life applications. 3

The Graph of a Quadratic Function 4

The Graph of a Quadratic Function 5

The Graph of a Quadratic Function Polynomial functions are classified by degree. For instance, the polynomial function f (x) = a, a 0 Constant function has degree 0 and is called a constant function. We have learned that the graph of this type of function is a horizontal line. The polynomial function f (x) = mx + b, m 0 Linear function has degree 1 and is called a linear function. 6

The Graph of a Quadratic Function We have learned that the graph of f (x) = mx + b is a line whose slope is m and whose y-intercept is (0, b). In this section, you will study second-degree polynomial functions, which are called quadratic functions. 7

The Graph of a Quadratic Function The graph of a quadratic function is a special type of U-shaped curve called a parabola. Parabolas occur in many real-life applications, especially those involving reflective properties, such as satellite dishes or flashlight reflectors. All parabolas are symmetric with respect to a line called the axis of symmetry, or simply the axis of the parabola. The point where the axis intersects the parabola is called the vertex of the parabola. 8

The Graph of a Quadratic Function 9

The Graph of a Quadratic Function 10

Example 1 Library of Parent Functions: f (x) = x 2 Sketch the graph of each function by hand and compare it with the graph of f (x) = x 2. a. g (x) = x 2 + 1 b. h (x) = (x + 2) 2 3 11

Example 1(a) Solution With respect to the graph of f (x) = x 2, the graph of g is obtained by a reflection in the x-axis and a vertical shift one unit upward, as shown in Figure 2.2. Confirm this with a graphing utility. Figure 2.2 12

Example 1(b) Solution cont d With respect to the graph of f (x) = x 2, the graph of h is obtained by a horizontal shift two units to the left and a vertical shift three units downward, as shown in Figure 2.3. Confirm this with a graphing utility. Figure 2.3 13

The Standard Form of a Quadratic Function 14

The Standard Form of a Quadratic Function The equation in Example 1(b) is written in the standard form f (x) = a (x h) 2 + k. This form is especially convenient for sketching a parabola because it identifies the vertex of the parabola as (h, k). 15

Example 2 Identifying the Vertex of a Quadratic Function Describe the graph of f (x) = 2x 2 + 8x + 7 and identify the vertex. Solution: Write the quadratic function in standard form by completing the square. We know that the first step is to factor out any coefficient of x 2 that is not 1. f (x) = 2x 2 + 8x + 7 Write original function. 16

Example 2 Solution cont d = (2x 2 + 8x) + 7 Group x-terms. = 2(x 2 + 4x) + 7 Factor 2 out of x-terms. = 2(x 2 + 4x + 4 4) + 7 = 2(x 2 + 4x + 4) 2(4) + 7 Add and subtract (4/2) 2 = 4 within parentheses to complete the square Regroup terms. = 2(x + 2) 2 1 Write in standard form. 17

Example 2 Solution cont d From the standard form, you can see that the graph of f is a parabola that opens upward with vertex ( 2, 1) as shown in Figure. This corresponds to a left shift of two units and a downward shift of one unit relative to the graph of y = 2x 2. Figure 2.4 18

Finding Minimum and Maximum Values 19

Finding Minimum and Maximum Values Many applications involve finding the maximum or minimum value of a quadratic function. By completing the square of the quadratic function f (x) = ax 2 + bx + c, you can rewrite the function in standard form. Standard form So, the vertex of the graph of f is implies the following., which 20

Finding Minimum and Maximum Values 21

Example 5 The Maximum Height of a Projectile The path of a baseball is given by the function f(x) = 0.0032x 2 + x + 3, where f(x) is the height of the baseball (in feet) and x is the horizontal distance from home plate (in feet). What is the maximum height reached by the baseball? Solution: For this quadratic function, you have f (x) = ax2 + bx + c = 0.0032x 2 + x + 3 which implies that a = 0.0032 and b = 1. 22

Example 5 Solution cont d Because the function has a maximum when x = b (2a), you can conclude that the baseball reaches its maximum height when it is x feet from home plate, where x is = 156.25 feet At this distance, the maximum height is f (156.25) = 0.0032(156.25) 2 + 156.25 + 3 = 81.125 feet. 23

Homework: Page 96 # s 31, 33, 39, 41, 49, 64 67 24

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