ASYMPTOTES TUTORIAL Horizontal Vertical Slant and Holes.

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ASYMPTOTES TUTORIAL Horizontal Vertical Slant and Holes

Transcript of ASYMPTOTES TUTORIAL Horizontal Vertical Slant and Holes.

Page 1: ASYMPTOTES TUTORIAL Horizontal Vertical Slant and Holes.

ASYMPTOTES TUTORIAL

HorizontalVertical

Slantand Holes

Page 2: ASYMPTOTES TUTORIAL Horizontal Vertical Slant and Holes.

Definition of an asymptote

An asymptote is a straight line which acts as a boundary for the graph of a function.

When a function has an asymptote (and not all functions have them) the function gets closer and closer to the asymptote as the input value to the function approaches either a specific value a or positive or negative infinity.

The functions most likely to have asymptotes are rational functions

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Vertical Asymptotes

Vertical asymptotes occur when thefollowing condition is met: The denominator of the simplified rational function is equal to 0. Remember, the simplified rational function has cancelled any factors common to both the numerator and denominator.

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Finding Vertical AsymptotesExample 1

Given the function

The first step is to cancel any factors common to both numerator and denominator. In this case there are none.

The second step is to see where the denominator of the simplified function equals 0.

x

xxf

22

52

1

01

012

022

x

x

x

x

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Finding Vertical Asymptotes Example 1 Con’t.

The vertical line x = -1 is the only vertical asymptote for the function. As the input value x to this function gets closer and closer to -1 the function itself looks and acts more and more like the vertical line

x = -1.

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Graph of Example 1

The vertical dotted line at x = –1 is the vertical asymptote.

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Finding Vertical AsymptotesExample 2

If

First simplify the

function. Factor

both numerator

and denominator

and cancel any

common factors.

9

121022

2

x

xxxf

3

42

33

423

9

121022

2

x

x

xx

xx

x

xx

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Finding Vertical Asymptotes Example 2 Con’t.

The asymptote(s) occur where the simplified denominator equals 0.

The vertical line x=3 is the only vertical asymptote for this function.

As the input value x to this function gets closer and closer to 3 the function itself looks more and more like the vertical line x=3.

3

03

x

x

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Graph of Example 2

The vertical dotted line at x = 3 is the vertical asymptote

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Finding Vertical AsymptotesExample 3

If

Factor both the numerator and denominator and cancel any common factors.In this case there are no common factors to cancel.

6

52

xx

xxg

32

5

6

52

xx

x

xx

x

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Finding Vertical AsymptotesExample 3 Con’t.The denominator equals zero whenever

either

or

This function has two vertical asymptotes, one at x = -2 and the other at x = 3

2

02

x

x

3

03

x

x

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Graph of Example 3

The two vertical dotted lines at x = -2 and x = 3 are the vertical asymptotes

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Horizontal Asymptotes

Horizontal asymptotes occur when either one of the following conditions is met (you should notice that both conditions cannot be true for the same function).

The degree of the numerator is less than the degree of the denominator. In this case the asymptote is the horizontal line y = 0.

The degree of the numerator is equal to the degree of the denominator. In this case the asymptote is the horizontal line

y = a/b where a is the leading coefficient in the numerator and b is the leading coefficient in the denominator.

When the degree of the numerator is greater than the degree of the denominator there is no horizontal asymptote

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Finding Horizontal AsymptotesExample 4

If

then there is a horizontal asymptote at the line y=0 because the degree of the numerator (2) is less than the degree of the denominator (3). This means that as x gets larger and larger in both the positive and negative directions (x → ∞ and x → -∞)

the function itself looks more and more like the horizontal line y = 0

27

533

2

x

xxxf

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Graph of Example 4

The horizontal line y = 0 is the horizontal asymptote.

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Finding Horizontal Asymptotes Example 5

If

then because the degree of the numerator (2) is equal to the degree of the denominator (2)

there is a horizontal asymptote at the line y=6/5.

Note, 6 is the leading coefficient of the numerator and 5 is the leading coefficient of the denominator. As x→∞ and as x→-∞ g(x) looks

more and more like the line y=6/5

975

5362

2

xx

xxxg

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Graph of Example 5

The horizontal dotted line at y = 6/5 is the

horizontal asymptote.

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Finding Horizontal Asymptotes Example 6

If

There are no horizontal asymptotes because the degree of the numerator is greater than the degree of the denominator.

1

9522

3

x

xxxf

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Graph of Example 6

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Slant Asymptotes

Slant asymptotes occur when the degree of the numerator is exactly one bigger than the degree of the denominator. In this case a slanted line (not horizontal and not vertical) is the function’s asymptote.

To find the equation of the asymptote we need to use long division – dividing the numerator by the denominator.

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Finding a Slant Asymptote Example 7

If

There will be a slant asymptote because the degree of the numerator (3) is one bigger than the degree of the denominator (2).

Using long division, divide the numerator by the denominator.

1

9522

23

xx

xxxxf

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Finding a Slant AsymptoteExample 7 Con’t.

39521 232

xxxxxx

xxx 23

943 2 xx

333 2 xx

127 x

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Finding a Slant AsymptoteExample 7 Con’t.

We can ignore the remainder

The answer we are looking for is the quotient

and the equation of the slant asymptote is

127 x

3x3xy

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Graph of Example 7

The slanted line y = x + 3 is the slant asymptote

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Holes

Holes occur in the graph of a rational function whenever the numerator and denominator have common factors. The holes occur at the x value(s) that make the common factors equal to 0.

The hole is known as a removable singularity or a removable discontinuity.

When you graph the function on your calculator you won’t be able to see the hole but the function is still discontinuous (has a break or jump).

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Finding a HoleExample 8

Remember the

function

We were able to cancel the (x + 3) in the numerator and denominator before finding the vertical asymptote.

Because (x + 3) is a common factor there will be a hole at the point where

33

423

9

121062

2

xx

xx

x

xxxf

3

03

x

x

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Graph of Example 8

Notice there is a hole in the graph at the point where x = -3. You would not be able to see this hole if you graphed the curve on your calculator (but it’s there just the same.)

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Finding a HoleExample 9

If Factor both numerator and denominator to see if

there are any common factors.

Because there is a common factor of x - 2 there will be a hole at x = 2. This means the function is undefined at x = 2. For every other x value the function looks like

22

422

4

8 2

2

3

xx

xxx

x

xxf

4

82

3

x

xxf

2

422

x

xx

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Graph of Example 9

There is a hole in the curve at the point where x = 2. This curve also has a vertical asymptote at x = -2 and a slant asymptote y = x.

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Problems

Find the vertical asymptotes, horizontal asymptotes, slant asymptotes and holes for each of the following functions. (Click mouse to see answers.)

2

2

2 15

7 10

x xf x

x x

Vertical: x = -2Horizontal : y = 1Slant: noneHole: at x = - 5

22 5 7

3

x xg x

x

Vertical: x = 3Horizontal : noneSlant: y = 2x +11Hole: none