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Rates of Change and Limits

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Presentation on theme: "Rates of Change and Limits"— Presentation transcript:

1 Rates of Change and Limits
AP CALCULUS AB Chapter 2: Limits and Continuity Section 2.1: Rates of Change and Limits

2 What you’ll learn about
Average and Instantaneous Speed Definition of Limit Properties of Limits One-Sided and Two-Sided Limits Sandwich Theorem …and why Limits can be used to describe continuity, the derivative and the integral: the ideas giving the foundation of calculus.

3 Average and Instantaneous Speed

4 Section 2.1 – Rates of Change and Limits
Instantaneous Speed: To find the instantaneous speed, we start by calculating the average speed over an interval from time t1 to any slight time later t2=t1+h To find the instantaneous speed, we take increasingly smaller values of h --- in other words, we let h approach 0. Then

5 Definition of Limit (If the horizontal distance between x and c is less than , then the vertical distance between and L is less than ). or as x gets increasingly closer to c, then gets increasingly closer to L.

6 Definition of Limit continued

7 Definition of Limit continued

8 Properties of Limits

9 Properties of Limits continued
Product Rule: Constant Multiple Rule:

10 Properties of Limits continued

11 Example Properties of Limits

12 Polynomial and Rational Functions

13 Polynomial and Rational Functions

14 Example Limits

15 Section 2.1 – Rates of Change and Limits
Techniques for Finding Limits Numerically – plug in values that approach c from both the right and left. Algebraically – factor and cancel/simplify first. Then plug in c for x. Graphically. In “well-behaved” functions we can find the by direct substitution of c for x:

16 Evaluating Limits As with polynomials, limits of many familiar functions can be found by substitution at points where they are defined. This includes trigonometric functions, exponential and logarithmic functions, and composites of these functions.

17 Section 2.1 – Rates of Change and Limits
Limits of Trigonometric Functions:

18 Example Limits

19 Example Limits [-6,6] by [-10,10]

20 Section 2.1 – Rates of Change and Limits
Functions that agree in all but 1 point

21 Section 2.1 – Rates of Change and Limits
Cancellation Techniques for finding Limits If you have a rational function

22 Section 2.1 – Rates of Change and Limits
Rationalization Techniques for Finding Limits

23 Section 2.1 – Rates of Change and Limits
Special Limits from Trigonometry

24 Section 2.1 – Rates of Change and Limits
Remember:

25 Section 2.1 – Rates of Change and Limits
As you approach 2 from the left, you get closer and closer to 12. As you approach 2 from the right, you get closer and closer to 12. So,

26 Section 2.1 – Rates of Change and Limits
Limit of a Composite Function: If and then

27 One-Sided and Two-Sided Limits

28 One-Sided and Two-Sided Limits continued

29 Section 2.1 – Rates of Change and Limits
If As x approaches 2 from the left, f(x) approaches 3. As x approaches 2 from the right, f(x) approaches 3. So,

30 Example One-Sided and Two-Sided Limits
Find the following limits from the given graph. 4 o 1 2 3

31 Section 2.1 – Rates of Change and Limits
Limits that do not exist: As x approaches 0 from the left, f(x) approaches 0. As x approaches 0 from the right, f(x) approaches 1. So, does not exist

32 Section 2.1 – Rates of Change and Limits
More Limits that do not exist: As x approaches , from the left, f(x) goes to As x approaches , from the right, f(x) goes to So does not exist.

33 Section 2.1 – Rates of Change and Limits
More Limits that do not exist: Oscillating behavior Graph on calculator and zoom in about 4 times around x=0.

34 Sandwich Theorem

35 Sandwich Theorem

36 Section 2.1 – Rates of Change and Limits
The Sandwich Theorem: If for all In some interval about c, and Then g(x) f(x) h(x)

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