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2.1 Introduction to Limits

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1 2.1 Introduction to Limits
Motivating example A rock falls from a high cliff. The position of the rock is given by: After 2 seconds: average speed: What is the instantaneous speed at 2 seconds?

2 We can use a calculator to evaluate this expression for smaller and smaller values of h.
We can see that the velocity approaches 64 ft/sec as h becomes very small. 1 80 0.1 65.6 .01 64.16 .001 64.016 .0001 .00001 We say that the velocity has a limiting value of 64 as h approaches zero. (Note that h never actually becomes zero.)

3 Definition of Limit We write
and say “the limit of f(x) , as x approaches a, equals L” if we can make the values of f(x) arbitrarily close to L (as close to L as we like) by taking x to be sufficiently close to a (on either side of a) but not equal to a. In our example,

4 The limit of a function refers to the value that the function approaches, not the actual value (if any). not 1

5 Left-hand and right-hand limits
We write and say the left-hand limit of f(x) as x approaches a is equal to L if we can make the values of f(x) arbitrarily close to to L by taking x to be sufficiently close to a and x less than a. Similarly, we write and say the right-hand limit of f(x) as x approaches a is equal to L if we can make the values of f(x) arbitrarily close to to L by taking x to be sufficiently close to a and x greater than a.

6 Note that if and only if and

7 Analyzing limits graphically
does not exist because the left and right hand limits do not match! 2 1 1 2 3 4 At x=1: left hand limit right hand limit value of the function

8 Analyzing limits graphically
because the left and right hand limits match. 2 1 1 2 3 4 At x=2: left hand limit right hand limit value of the function

9 Analyzing limits graphically
because the left and right hand limits match. 2 1 1 2 3 4 At x=3: left hand limit right hand limit value of the function

10 Properties of Limits Suppose that c is a constant and the limits
and exist. Then

11 Properties of Limits (cont.)
Suppose that c is a constant, n is a positive integer and the limit exists. Then

12 Direct Substitution Property
If f is a polynomial or a rational function and a is in the domain of f, then Examples on the board.

13 Indeterminate forms Consider:
If we try to evaluate by direct substitution, we get: Zero divided by zero can not be evaluated. The limit may or may not exist, and is called an 0/0 indeterminate form. We can evaluate it by factoring and canceling:

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