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1 Lesson 67 - Infinite Series – The Basics Santowski – HL Math Calculus Option.

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Presentation on theme: "1 Lesson 67 - Infinite Series – The Basics Santowski – HL Math Calculus Option."— Presentation transcript:

1 1 Lesson 67 - Infinite Series – The Basics Santowski – HL Math Calculus Option

2 2 Understand the definition of a convergent infinite series. Use properties of infinite geometric series. Use the nth-Term Test for Divergence of an infinite series. Objectives

3 3 Example : Find the sum of Review Question: Example 1

4 4 Example : Find the sum of The sum of the series is

5 5 The sum of the terms of an infinite geometric sequence is called a geometric series. a 1 + a 1 r + a 1 r 2 + a 1 r 3 +... + a 1 r n -1 +... If | r | < 1, then the infinite geometric series has the sum

6 6 Review Question: Example #2  Ex 1

7 7 Review Question: Example 2  Ex 1

8 8 Partial sums of If the sequence of partial sums converges, the series converges and Converges to 1 so series converges.

9 9 Review Question: Example #3  Determine the values of the following infinite series:

10 10 One important application of infinite sequences is in representing “infinite summations.” Informally, if {a n } is an infinite sequence, then is an infinite series (or simply a series). The numbers a 1, a 2, a 3, are the terms of the series. For some series it is convenient to begin the index at n = 0 (or some other integer). As a typesetting convention, it is common to represent an infinite series as simply Infinite Series Infinite series

11 11 In such cases, the starting value for the index must be taken from the context of the statement. To find the sum of an infinite series, consider the following sequence of partial sums. If this sequence of partial sums converges, the series is said to converge. Infinite Series

12 12 Infinite Series

13 13 Example 1(a) – Convergent and Divergent Series Does the following series converge or diverge? HOW do we decide?

14 14 Example 1(a) – Convergent and Divergent Series The series has the following partial sums.

15 15 Example 1(a) – Convergent and Divergent Series Because it follows that the series converges and its sum is 1. cont’d

16 16 Does the following series converge or diverge? HOW do we decide? cont’d Example 1(b) – Convergent and Divergent Series

17 17 The series diverges because S n = n and the sequence of partial sums diverges. cont’d Example 1(b) – Convergent and Divergent Series

18 18 Example 1(c) – Convergent and Divergent Series Does the following series converge or diverge? HOW do we decide? cont’d

19 19 Example 1(c) – Convergent and Divergent Series The nth partial sum of the series is given by Because the limit of S n is 1, the series converges and its sum is 1. cont’d

20 20 Infinite Series The series is a telescoping series of the form Note that b 2 is canceled by the second term, b 3 is canceled by the third term, and so on. Telescoping series

21 21 Infinite Series Because the nth partial sum of this series is S n = b 1 – b n + 1 it follows that a telescoping series will converge if and only if b n approaches a finite number as Moreover, if the series converges, its sum is

22 22 Geometric Series

23 23 Geometric Series The series is a geometric series. In general, the series given by is a geometric series with ratio r. Geometric series

24 24 Geometric Series

25 25 Example 3(a) – Convergent and Divergent Geometric Series The geometric series has a ratio of with a = 3. Because 0 < |r| < 1, the series converges and its sum is

26 26 Example 3(b) – Convergent and Divergent Geometric Series The geometric series has a ratio of Because | r | ≥ 1, the series diverges. cont’d

27 27 Examples: Geometric Series Each term is obtained from the preceding number by multiplying by the same number r. Find r (the common ratio)

28 28 Examples: Geometric Series

29 29 Repeating decimals Does the following series converge or diverge? HOW do we decide?

30 30 Repeating decimals Geometric Series The repeating decimal is equivalent to 8/99.

31 31 Geometric Series

32 32 nth-Term Test for Divergence Necessary Conditions for Convergence:

33 33 nth-Term Test for Divergence The contra-positive of Theorem 8 provides a useful test for divergence. This nth-Term Test for Divergence states that if the limit of the nth term of a series does not converge to 0, the series must diverge.

34 34 Example 5 – Using the nth-Term Test for Divergence a. For the series you have: b. For the series you have:

35 35 Example 5 – Using the nth-Term Test for Divergence a. For the series you have: So, the limit of the nth term is not 0, and the series diverges. b. For the series you have: So, the limit of the nth term is not 0, and the series diverges.

36 36 Example 5 – Using the nth-Term Test for Divergence c. For the series you have: cont’d

37 37 Example 5 – Using the nth-Term Test for Divergence c. For the series you have Because the limit of the nth term is 0, the nth-Term Test for Divergence does not apply and you can draw no conclusions about convergence or divergence. cont’d

38 38 Example  Does the following series converge or diverge?

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