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The Limit of a Functi 2.2
23

Lecture 4 the limit of a function

Jun 14, 2015

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MATH 138 Lecture #4
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Page 1: Lecture 4   the limit of a function

The Limit of a Function2.2

Page 2: Lecture 4   the limit of a function

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The Limit of a Function

Let’s investigate the behavior of the function f defined by

f (x) = x2 – x + 2 for values of x near 2.

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Limit of a Function- Numerically

The following table gives values of f (x) for values of x close

to 2 but not equal to 2.

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Limit of a Function - GraphicallyFrom the table and the graph of f (a parabola) shown in Figure 1 we see that when x is close to 2 (on either side of 2), f (x) is close to 4.

Figure 1

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The Limit of a FunctionAs x gets close to 2, f(x) gets close to 4

“the limit of the function f (x) = x2 – x + 2 as x approaches 2 is equal to 4.”

The notation for this is

Page 6: Lecture 4   the limit of a function

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The Limit of a Function

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The Limit of a FunctionAn alternative notation for

is f (x) L as x a

which is usually read “f (x) approaches L as x approaches a.”

Notice the phrase “but x a” in the definition of limit. This means that in finding the limit of f (x) as x approaches a, it does not matter what is happening at x = a.

In fact, f (x) need not even be defined when x = a. The only thing that matters is how f is defined near a.

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The Limit of a FunctionFigure 2 shows the graphs of three functions. Note that in part (c), f (a) is not defined and in part (b), f (a) L.

But in each case, regardless of what happens at a, it is true that limxa f (x) = L.

Figure 2

in all three cases

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Example 1

Figure 3

Page 10: Lecture 4   the limit of a function

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Example 1 - Graphically

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Example 1 – Guessing a Limit from Numerical Values

Guess the value of

Solution:

F(1) is undefined, but that doesn’t matter because the

definition of limxa f (x) says that we consider values of x that

are close to a but not equal to a.

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Example 1 – NumericallyThe tables below give values of f (x) (correct to six decimal places) for values of x that approach 1

(but are not equal to 1).

On the basis of the values in the tables, we make

the guess that

cont’d

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Example 1 - Algebraically

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Finding Limits - Examples

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One-Sided Limits

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One-Sided LimitsThe Heaviside function H is defined by

.

H(t) approaches 0 as t approaches 0 from the left and H(t) approaches 1 as t approaches 0 from the right.

We indicate this situation symbolically by writing

and

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One-Sided Limits

“t 0–” values of t that are less than 0 “left

“t 0+” values of t that are greater than 0 “right

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One-Sided Limits

Notice that Definition 2 differs from Definition 1 only in that

we require x to be less than a.

Similar definition for right-handed limit

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One-Sided Limits

Overall limit exists iff both one-sided limits exist and they

agree

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Example 7 – One-Sided Limits from a Graph

The graph of a function g is shown in Figure 10. Use it to state the values (if they exist) of the following:

Figure 10

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Example 7 – SolutionFrom the graph we see that the values of g(x) approach 3 as x approaches 2 from the left, but they approach 1 as x approaches 2 from the right.

Therefore

and

(c) Since the left and right limits are different, we conclude from (3) that limx2 g(x) does not exist.

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Example 7 – SolutionThe graph also shows that

and

(f) This time the left and right limits are the same and so,

by (3), we have

Despite this fact, notice that g(5) 2.

cont’d

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One-Sided Limits - ExampleFind left, right and overall limit at:

(a)x = -4

(b)x = 1

(c)x = 6