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Limits Basic facts about limits The concept of limit underlies all of calculus. Derivatives, integrals and series are all different kinds of limits. Limits.

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Presentation on theme: "Limits Basic facts about limits The concept of limit underlies all of calculus. Derivatives, integrals and series are all different kinds of limits. Limits."— Presentation transcript:

1 Limits Basic facts about limits The concept of limit underlies all of calculus. Derivatives, integrals and series are all different kinds of limits. Limits are one way that mathematicians deal with the infinite.

2 First some notation and a few basic facts. Let f be a function, and let a and L be fixed numbers. Then is read "the limit of f(x) as x approaches a is L" You probably have an intuitive idea of what this means. And we can do examples: And we can do examples: First things first...

3 For many functions......and many values of a, it is true that And it is usually apparent when this is not true. "Interesting" things happen when f(a) is not well-defined, or there is something "singular" about f at a.

4 Top ten famous limits: 1. 2.

5 3. (A) If 0 < x < 1 then (B) If x > 1, then 4. and 5. and

6 6-10 6. For any value of n, and for any positive value of n, 7. does not exist!

7 8. 9. 10. If f is differentiable at a, then

8 Basic properties of limits I. Arithmetic of limits: If both and exist, then and if, then

9 II. Two-sided and one-sided limits: III. Monotonicity:

10 IV. Squeeze theorem:

11 Let’s work through a few:

12 Now you try this one... A. 0 B. C. -1/2 D. E. -1 F. G. -2 H.

13 Continuity A function f is continuous at x = a if it is true that (The existence of both the limit and of f(a) is implicit here). Functions that are continuous at every point of an interval are called "continuous on the interval".

14 Intermediate value theorem The most important property of continuous functions is the "common sense" Intermediate Value Theorem : Suppose f is continuous on the interval [a,b], and f(a) = m, and f(b) = M, with m < M. Then for any number p between m and M, there is a solution in [a,b] of the equation f(x) = p.

15 Maple graph Since f(0)=-2 and f(2)=+2, there must be a root of f(x)=0 in between x=0 and x=2. A naive way to look for it is the "bisection method" -- try the number halfway between the two closest places you know of where f has opposite signs. Application of the intermediate-value theorem

16 Since f(1) = -3 < 0, we now know (of course, we already knew from the graph) that there is a root between 1 and 2. So try halfway between again: f(1.5) = -1.625 So the root is between 1.5 and 2. Try 1.75: f(1.75) = -.140625 We know that f(0) = -2 and f(2) = 2, so there is a root in between. Choose the halfway point, x = 1.

17 We had f(1.75) 0. So the root is between 1.75 and 2. Try the average, x = 1.875 f(1.875) =.841796875 f is positive here, so the root is between 1.75 and 1.875. Try their average (x=1.8125): f(1.8125) =.329345703 So the root is between 1.75 and 1.8125. One more: f (1.78125) =.089141846 So now we know the root is between 1.75 and 1.8125. You could write a computer program to continue this to any desired accuracy.

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