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Find the n th term of a sequence. Write rules for sequences.

Objectives. Find the n th term of a sequence. Write rules for sequences. Vocabulary. sequence term of a sequence infinite sequence finite sequence recursive formula explicit formula iteration.

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Find the n th term of a sequence. Write rules for sequences.

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  1. Objectives Find the nth term of a sequence. Write rules for sequences.

  2. Vocabulary sequence term of a sequence infinite sequence finite sequence recursive formula explicit formula iteration

  3. In 1202, Italian mathematician Leonardo Fibonacci described how fast rabbits breed under ideal circumstances. Fibonacci noted the number of pairs of rabbits each month and formed a famous pattern called the Fibonacci sequence. A sequenceis an ordered set of numbers. Each number in the sequence is a term of the sequence. A sequence may be an infinite sequencethat continues without end, such as the natural numbers, or a finite sequencethat has a limited number of terms, such as {1, 2, 3, 4}.

  4. You can think of a sequence as a function with sequential natural numbers as the domain and the terms of the sequence as the range. Values in the domain are called term numbers and are represented by n. Instead of function notation, such as a(n), sequence values are written by using subscripts. The first term is a1, the second term is a2, and the nth term is an. Because a sequence is a function, each number n has only one term value associated with it, an.

  5. In the Fibonacci sequence, the first two terms are 1 and each term after that is the sum of the two terms before it. This can be expressed by using the rule a1 = 1, a2 = 1, and an= an – 2 + an – 1, where n ≥ 3. This is a recursive formula. A recursive formulais a rule in which one or more previous terms are used to generate the next term.

  6. Reading Math anis read “a sub n.”

  7. Example 1: Finding Terms of a Sequence by Using a Recursive Formula Find the first 5 terms of the sequence with a1= –2 and an= 3an–1 + 2 for n ≥ 2. The first term is given, a1 = –2. Substitute a1 into rule to find a2. Continue using each term to find the next term. The first 5 terms are –2, –4, –10, –28, and –82.

  8. Check It Out! Example 1a Find the first 5 terms of the sequence. a1 = –5, an = an –1– 8 a an –1 – 8 an 1 Given –5 2 3 4 5

  9. Check It Out! Example 1b Find the first 5 terms of the sequence. a1 = 2, an= –3an–1 a –3an –1 an 1 Given 2 2 3 4 5

  10. In some sequences, you can find the value of a term when you do not know its preceding term. An explicit formuladefines the nth term of a sequence as a function of n.

  11. Check It Out! Example 2a Find the first 5 terms of the sequence. an = n2 – 2n n n2 – 2n an 1 2 3 4 5

  12. Check It Out! Example 2a Find the first 5 terms of the sequence. an = n2 – 2n CheckUse a graphing calculator. Enter y = x2 – 2x. n n2 – 2n an 1 1 – 2(1) –1 2 4 – 2(2) 0 3 9 – 2(3) 3 4 16 – 2(4) 8 5 25 – 2(5) 15

  13. Check It Out! Example 2a Find the first 5 terms of the sequence. an = n2 – 2n CheckUse a graphing calculator. Enter y = x2 – 2x. n n2 – 2n an 1 1 – 2(1) –1 2 4 – 2(2) 0 3 9 – 2(3) 3 4 16 – 2(4) 8 5 25 – 2(5) 15

  14. Check It Out! Example 2b Find the first 5 terms of the sequence. an = 3n – 5 n 3n – 5 an 1 2 3 4 5

  15. Check It Out! Example 2b Find the first 5 terms of the sequence. an = 3n – 5 CheckUse a graphing calculator. Enter y = 3x – 5. n 3n – 5 an 1 3(1) – 5 –2 2 3(2) – 5 1 3 3(3) – 5 4 4 3(4) – 5 7 5 3(5) – 5 10

  16. Check It Out! Example 2b Find the first 5 terms of the sequence. an = 3n – 5 CheckUse a graphing calculator. Enter y = 3x – 5. n 3n – 5 an 1 3(1) – 5 –2 2 3(2) – 5 1 3 3(3) – 5 4 4 3(4) – 5 7 5 3(5) – 5 10

  17. Remember! Linear patterns have constant first differences. Quadratic patterns have constant second differences. Exponential patterns have constant ratios. (Lesson 9-6)

  18. Example 3A: Writing Rules for Sequences Write a possible explicit rule for the nth term of the sequence. 5, 10, 20, 40, 80, ... Examine the differences and ratios.

  19. Example 3B: Writing Rules for Sequences Write a possible explicit rule for the nth term of the sequence. 1.5, 4, 6.5, 9, 11.5, ... Examine the differences and ratios.

  20. Check It Out! Example 3a Write a possible explicit rule for the nth term of the sequence. 7, 5, 3, 1, –1, … Examine the differences and ratios.

  21. Check It Out! Example 3b Write a possible explicit rule for the nth term of the sequence.

  22. Recall that a fractal is an image made by repeating a pattern (Lesson 5-5). Each step in this repeated process is an iteration, the repetitive application of the same rule.

  23. Check It Out! Example 5 The Cantor set is a fractal formed by repeatedly removing the middle third of a line segment as shown. Find the number of segments in the next 2 iterations.

  24. Example 5: Iteration of Fractals Find the number of triangles in the 7th and 8th iterations of the Sierpinski triangle.

  25. Example 4: Physics Application A ball is dropped and bounces to a height of 4 feet. The ball rebounds to 70% of its previous height after each bounce. Graph the sequence and describe its pattern. How high does the ball bounce on its 10th bounce?

  26. Example 4 Continued Because the ball first bounces to a height of 4 feet and then bounces to 70% of its previous height on each bounce, the recursive rule is a1 = 4 and an = 0.7an-1. Use this rule to find some other terms of the sequence and graph them.

  27. Check It Out! Example 4 An ultra-low-flush toilet uses 1.6 gallons every time it is flushed. Graph the sequence of total water used after n flushes, and describe its pattern. How many gallons have been used after 10 flushes?

  28. Check It Out! Example 4 An ultra-low-flush toilet uses 1.6 gallons every time it is flushed. Graph the sequence of total water used after n flushes, and describe its pattern. How many gallons have been used after 10 flushes? The graph shows the points lie on a line with a positive slope; 16 gallons have been used after 10 flushes.

  29. Lesson Quiz: Part I Find the first 5 terms of each sequence. 1. a1= 4 and an= 0.5 an - 1+ 1 for n ≥ 2 2. an= 2n– 5 Write a possible explicit rule for the nth term of each sequence. 3. 20, 40, 80, 160, 320 4.

  30. Lesson Quiz: Part II 5. A ball is dropped and bounces to a height of 6 feet. The ball rebounds to 40% of its previous height after each bounce. Graph the sequence and describe its pattern. How high does the ball bounce on its 7th bounce?

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