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Geometric Sequences Plus a review of arithmetic sequences.

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1 Geometric Sequences Plus a review of arithmetic sequences

2 Definitions Definitions: (yes, that's right, this is important, know these!) A sequence is a set of numbers, called terms, arranged in some particular order. An arithmetic sequence is a sequence with the difference between two consecutive terms constant. The difference is called the common difference. ( isn't that clever!) A geometric sequence is a sequence with a common ratio, r. (cleverness two!) –i.e. The ratio of successive terms in a geometric sequence is a constant called the common ratio, denoted r.

3 Examples: Find the common ratio of the following: 1) 1, 2, 4, 8, 16,... r = 2 2) 27, 9, 3, 1, 1/3,... r = 1/3 3) 3, 6, 12, 24, 48,... r = 2 4) 1/2, -1, 2, -4, 8,... r = -2

4 Examples: Find the next term in each of the previous sequences. 1) 1, 2, 4, 8, 16,... 32 2) 27, 9, 3, 1, 1/3,... 1/9 3) 3, 6, 12, 24, 48,... 96 4) 1/2, -1, 2, -4, 8,... -16

5 Let's play guess the sequence!: I give you a sequence and you guess the type. 1.3, 8, 13, 18, 23,... 2.1, 2, 4, 8, 16,... 3.24, 12, 6, 3, 3/2, 3/4,... 4.55, 51, 47, 43, 39, 35,... 5.2, 5, 10, 17,... 6.1, 4, 9, 16, 25, 36,...

6 Answers! 1) Arithmetic, the common difference d = 5 2) Geometric, the common ratio r = 2 3) Geometric, r = 1/2 4) Arithmetic, d = -4 5) Neither, why? (How about no common difference or ratio!) 6) Neither again! (This looks familiar, could it be from geometry?)

7 This is important! Arithmetic formula: a n = a 1 + (n - 1)d a n is the nth term, a 1 is the first term, and d is the common difference. Geometric formula: a n = a 1. r (n - 1) a n is the nth term, a 1 is the first term, and r is the common ratio.

8 Sample problems: Find the first four terms and state whether the sequence is arithmetic, geometric, or neither. 1) a n = 3n + 2 2) a n = n 2 + 1 3) a n = 3*2 n

9 Answers: 1) a n = 3n + 2 To find the first four terms, in a row, replace n with 1, then 2, then 3 and 4 Answer: 5, 8, 11, 14 The sequence is arithmetic! d = 3

10 2) a n = n 2 + 1 To find the first four terms, do the same as above! Answer: 2, 5, 10, 17 The sequence is neither. Why?

11 3) a n = 3*2 n Ditto for this one ( got it by now?) Answer: 6, 12, 24, 48 The sequence is geometric with r = 2

12 Find a formula for each sequence. 1) 2, 5, 8, 11, 14,... Work: It is arithmetic! So use the arithmetic formula you learned! a 1 = 2, look at the first number in the sequence! d = 3, look at the common difference! Therefore, a n = 2 + (n - 1)3 and simplifying yields : a n = 3n -1 ( tada!) Try putting in 1, then 2, then 3, etc. and you will get the sequence!

13 2) 4, 8, 16, 32,... Work: It is geometric! So use the geometric formula you learned up yonder! a 1 = 4, look at the first number in the sequence! r = 2, look at the common ratio! Therefore, a n = 4 * 2 (n - 1) and simplifying gives us: a n = 2 * 2n (Yikes stripes! Where did this come from. rewrite 2(n - 1) as 2n. 2- 1 and cancel with the four!) Try putting in 1, 2, 3, etc and see if you get the sequence back!

14 3) 21, 201, 2001, 20001,... Work: Bummer! It's not geometric or arithmetic. What do I do now? Don't panic! Use your head and think! Think of the sequence as (20 +1), (200+1), (2000 + 1), (20000 + 1),... Then as this sequence:[(2)(10) +1],[(2)(100) +1], [(2)(1000) +1], [(2)(10000) +1] Wait! Hold on here! I see a pattern! Cool, without a formula! Powers of 10! How does this grab ya! a n = 2*10 n + 1 Does this work? Try it and see!

15 Find the indicated term of the sequence. 1) sequence is arithmetic with t 1 = 5 and t 7 = 29. Find t 53 Work: Use the formula! 29 = 5 + 6d Where oh where did I get that! Substitution! 24 = 6d means d = 4 t 53 = 5 + 52. 4 = 213

16 2) Find the number of multiples of 9 between 30 and 901. Work: What's the first multiple of 9 in the range? How about 36. What's the last multiple of 9 in the range? How about 900. Use the formula: 900 = 36 + 9(n - 1) and solve for n! 864 = 9n - 9 873 = 9n 97 = n There are 97 multiples in the range!

17 How to find the sum of a finite Geometric Series How to find the sum of a finite Geometric Series S n = a 1 (1 - r n )/(1 - r) where r is the common ratio and (r doesn't = 0) To find the sum of a finite geometric series, you need to know three things: the first term, how many terms to add and the common ratio!! (piece of cake!)

18 Definition geometric series - the expression formed by adding the terms of a geometric sequence. Finding the Sum of the First n Terms of a Geometric Sequence. –Use S n = [a 1 (1 - r n )/(1 - r)], S n is the sum of the first n terms. –Substitute the n, a, and r values into S n = [a 1 (1 - r n )/(1 - r)]. –Simplify to find the sum.

19 Example problem: Find the sum of the first 10 terms of the geometric series: 4, 8, 16, 32, 64,... Answer: t 1 = 4 r = 2 t 10 = 4. 2 9 = 2048 (This is the formula for a geometric sequence!) Therefore: S n = [a 1 (1 - r n )/(1 - r)], S 10 = 4(1-2 10 )/(1 - 2) = 4. 1023 = 4092

20 Example: Find the sum of the first 10 terms of the geometric series 9 + 36 + 144 + 576 +... Answer: S n = [(1 - r n )/(1 - r)] S n = [9(1- 4 10 )/(1-4)] S n = [9(-1048575)/(-3)] S n = 28,311,525

21 Example: Find the sum of the first 10 terms of the geometric series -6 + -30 + -150 + -750 +... Answer: S n = [(1 - r n )/(1 - r)] S n = [-6(1- 5 10 )/(1-5)] S n = [-6(-9765624)/(-4)] S n = -234,374,976

22 Example: Find the sum of the first 10 terms of the geometric series 8 + 56 + 392 + 2744 +... Answer: S n = [(1 - r n )/(1 - r)] S n = [8(1- 7 10 )/(1-7)] S n = [8(-282,475,248)/(-6)] S n = 13,558,811,900

23 Example: Find the sum of the first 10 terms of the geometric series 4 + 12 + 36 + 108 +... Answer: S n = [(1 - r n )/(1 - r)] S n = [4(1- 3 10 )/(1-3)] S n = [4(-59,048)/(-2)] S n = 472,384

24

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