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1.4 Continuity and One-Sided Limits This will test the “Limits” of your brain!

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Presentation on theme: "1.4 Continuity and One-Sided Limits This will test the “Limits” of your brain!"— Presentation transcript:

1 1.4 Continuity and One-Sided Limits This will test the “Limits” of your brain!

2 Definition of Continuity A function is called continuous at c if the following three conditions are met: 1. f(c) is defined 2. 3. A function is continuous on an open interval (a,b) if it is continuous at each point in the interval.

3 Two Types of Discontinuities 1.Removable Point Discontinuity 2.Non-removable Jump and Infinite Removable example the open circle can be filled in to make it continuous

4 Non-removable discontinuity. Ex. 1

5 Determine whether the following functions are continuous on the given interval. ( ) 1 yes, it is continuous

6 ( ) discontinuous at x = 1 removable discontinuity since filling in (1,2) would make it continuous.

7 yes, it is continuous

8 One-sided Limits Limit from the right Limit from the left Find the following limits 1 0 D.N.E.

9 Step Functions “Jump” Greatest Integer 0 D.N.E.

10 g(x)= 3 3 g(x) is continuous at x = 2 Is g(x) continuous at x = 2?

11 Intermediate Value Theorem If f is continuous on [a,b] and k is any number between f(a) and f(b), then there is at least one number c in [a,b] such that f(c) = k [ ] a b f(a) f(b) k In this case, how many c’s are there where f(c) = k? 3

12 Show that f(x) = x 3 + 2x –1 has a zero on [0,1]. f(0) = 0 3 + 2(0) – 1 = -1 f(1) = 1 3 + 2(1) – 1 = 2 Since f(0) 0, there must be a zero (x-intercept) between [0,1].

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