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Page 1: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

5.1 Polynomial Functions

Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree.

Page 2: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

Identifying Polynomial Functions

Page 3: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

Zeros of Polynomial Functions

Example: Find a polynomial of degree 3 whose zeros are -4, -2, and 3

4 2 3f x x x x

4 2 3f x x x x

2 4 2 3f x x x x

Page 4: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

3 42 2 1 3f x x x x

For the polynomial, list all zeros and their multiplicities.

Identifying Zeros and Their Multiplicities

2 With multiplicity 1-1 with multiplicyty 33 with multiplicity 4

Page 5: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

Graphing a Polynomial Using it’s x-intercepts

Page 6: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

(Local Maxima and Local Minima)

Page 7: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

Leading Coefficient Test for End Behavior

• Even-degree polynomial functions have graphs with the same behavior at each end.

• Odd-degree polynomial functions have graphs with opposite end behavior.

• Note that the degree is even.

End Behavior : The behavior of a graph for large values of | x |

Page 8: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

More on End Behavior

Page 9: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

A)

B)

C)

D)

For the polynomial

list the zero and its multiplicity and whether it touches or crosses the x axis at each x-intercept.

Page 10: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

A)

B)

C)

D)

Which of the following polynomial functions might have the graph shown?

Page 11: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

5.2 & 5.3 Graphing Rational Functions

Rational functions are quotients of polynomial functions.The following are examples of rational functions. Can you find the domains? (All real numbers except values that make the denominator zero)

f(x) = x2 + 7x + 9 f(x) = x2 – 9 g(x) = x h(x) = x + 3

x(x – 2)(x + 5) (x – 3) (x2 – 9) x2 + 9

Page 12: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

Arrow NotationSymbol Meaningx a + x approaches a from the right.x a - x approaches a from the left.x x approaches infinity (x increases without bound)x - x approaches negative infinity (x decreases without bound)

The line x = a is a vertical asymptote of the graph of a function f if f (x) increases or decreases without bound as x approaches a.f (x) as x a

+ f (x) as x a – f (x) as x a

+ f (x) - as x a -

f

a

y

x

x = a

fa

y

x

x = a

f (x) or f(x) - as x approaches a from either the left or the right.Vertical asymptotes occur at all x’s where the ‘simplified’ denominator is zero.

f

a

y

x

x = a

x = a

fa

y

x

Page 13: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

The line y = b is a horizontal asymptote of the graph of a function f if f (x) approaches b as x increases or decreases without bound.

f

y

x

y = b

x

y

f

y = b f

y

x

y = b

f (x) b as x f (x) b as x f (x) b as x

Finding Horizontal Asymptotes

The degree of the numerator is n. The degree of the denominator is m.1. If n<m, the x-axis, or y=0, is the horizontal asymptote of the graph of f.

2. If n=m, the line y = an/bm is the horizontal asymptote of the graph of f.3. If n>m,the graph of f has no horizontal asymptote.Note : In contrast to vertical asymptotes, at most 1 horizontal asymptote exists and the graph may cross the horizontal asymptote.

Let:

Page 14: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

Slant/Oblique Asymptotes

-2 -1 4 5 6 7 8321

7

6

5

4

3

1

2

-1

-3

-2Vertical asymptote: x = 3

Slant asymptote: y = x - 1

A slant asymptote exists if the deegree of the numerator is onemore than the degree of the denominator.

To find the equation of the slant asymptote, divide x - 3 into x2 - 4x – 5, and drop the remainder. The asymptote is given by the resulting linear equation.

The equation of the slant asymptote is y = x - 1.

Degree 2Degree 1

3 1 -4 -5 3 -3

1 -1 -8

Page 15: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

Strategy for Graphing a Rational Functionf(x) = p(x) ,where p(x) and q(x) are polynomials with no common factor. q(x)

1. Determine whether the graph of f has symmetry. f (-x) = f (x): y-axis symmetry

f (-x) = -f (x): origin symmetry

2. Find the y-intercept (if there is one) by evaluating f (0).3. Find the x-intercepts (if there are any) by solving the equation p(x) = 0.

4. Find any vertical asymptote(s) by solving the equation q (x) = 0.5. Find the horizontal asymptote (if there is one)

6. Plot points between and beyond each x-intercept and vertical asymptote.7. Use the information obtained previously to graph the function.

Page 16: 5.1 Polynomial Functions Degree of a Polynomial: Largest Power of X that appears. The zero polynomial function f(x) = 0 is not assigned a degree

Which of the following is the graph of the equation:

A) B)

C) D)

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A)

B)

C)

D)

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A)

B)

C)

D)

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A)

B)

C)

D)


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