1. Chapter 2: Limits 2.2 The Limit of a Function

2. Limits “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

3. Helpful notes… In limits, x ≠ a This means we never consider that x = a The only thing that matters is how f(x) behaves near a

4. Example 1 Guess the value of

5. Example 2 Estimate the value of

6. Example 3 Guess the value of

7. Example 4 Investigate

8. Example 5 Find

9. Example 6 The Heaviside function H is defined by What is the limit?

10. One sided limits Left-hand limit of f(x) as x approaches a Approaches from the negative side

11. One sided limits Right-hand limit of f(x) as x approaches a Approaches from the positive side

12. Therefore… If and only if… and

13. Example 7 The graph of a function g is shown in Figure 10 on page 71. Use it to state the values (if they exist) of the following:

14. Example 7 The graph of a function g is shown in Figure 10 on page 71. Use it to state the values (if they exist) of the following:

15. Example 8 Find if it exists

16. Definition Let f be a function defined on both sides of a, except possibly at a itself Then Means that the values of f(x) can be made arbitrarily large (as large as we please) by taking x sufficiently close to a, but not equal to a Happens in cases of functions with asymptotes!

17. Definition Let f be a function defined on both sides of a, except possibly at a itself Then Means that the values of f(x) can be made arbitrarily large negative by taking x sufficiently close to a, but not equal to a Happens in cases of functions with asymptotes!

18. Vertical Asymptotes The line x = a is called a vertical asymptote of the curve y = f(x) if at least one of the following statements is true:

19. Example 9a Find

20. Example 9b Find

21. Example 10 Find the vertical asymptotes of f(x) = tan x

22. Homework P.74 4 – 9, 21, 25, 29