Essential Questions Geometric Sequences and Series

Slides:

Advertisements

Similar presentations

Arithmetic Sequences and Series

Advertisements

Geometric Sequences and Series

Last Time Arithmetic SequenceArithmetic Series List of numbers with a common difference between consecutive terms Ex. 1, 3, 5, 7, 9 Sum of an arithmetic.

Objectives Find terms of a geometric sequence, including geometric means. Find the sums of geometric series.

Patterns and Recursion

EXAMPLE 1 Identify arithmetic sequences

Geometric Sequences Section

Notes Over 11.3 Geometric Sequences

EXAMPLE 2 Write a rule for the nth term Write a rule for the nth term of the sequence. Then find a 7. a. 4, 20, 100, 500,... b. 152, –76, 38, –19,... SOLUTION.

Arithmetic Sequences Section 4.5. Preparation for Algebra ll 22.0 Students find the general term and the sums of arithmetic series and of both finite.

Warm Up Section 3.6B (1). Show that f(x) = 3x + 5 and g(x) = are inverses. (2). Find the inverse of h(x) = 8 – 3x. (3). Solve: 27 x – 1 < 9 2x + 3 (4).

Geometric Sequences and Series To recognize, write, and use geometric sequences.

12.2 – Analyze Arithmetic Sequences and Series. Arithmetic Sequence: The difference of consecutive terms is constant Common Difference: d, the difference.

Wednesday, March 7 How can we use arithmetic sequences and series?

12.2: Analyze Arithmetic Sequences and Series HW: p (4, 10, 12, 14, 24, 26, 30, 34)

THE BEST CLASS EVER…ERRR…. PRE-CALCULUS Chapter 13 Final Exam Review.

Geometric Sequences and Series

+ Geometric Sequences & Series EQ: How do we analyze geometric sequences & series? M2S Unit 5a: Day 9.

Ch. 11 – Sequences & Series 11.1 – Sequences as Functions.

Standard 22 Identify arithmetic sequences Tell whether the sequence is arithmetic. a. –4, 1, 6, 11, 16,... b. 3, 5, 9, 15, 23,... SOLUTION Find the differences.

Geometric Sequences as Exponential Functions

Notes Over 11.2 Arithmetic Sequences An arithmetic sequence has a common difference between consecutive terms. The sum of the first n terms of an arithmetic.

Review for the Test Find both an explicit formula and a recursive formula for the nth term of the arithmetic sequence 3, 9, 15,……… Explicit Formula ______________________________.

Over Lesson 7–6 5-Minute Check 1 The number of people who carry cell phones increases by 29% each year. In 2002, there were 180 million cell phone users.

Homework Questions. Geometric Sequences In a geometric sequence, the ratio between consecutive terms is constant. This ratio is called the common ratio.

13.4 Geometric Sequences and Series Example:3, 6, 12, 24, … This sequence is geometric. r is the common ratio r = 2.

Essential Questions Series and Summation Notation

Essential Questions Series and Summation Notation

Essential Questions Introduction to Sequences

12.2, 12.3: Analyze Arithmetic and Geometric Sequences HW: p (4, 10, 12, 18, 24, 36, 50) p (12, 16, 24, 28, 36, 42, 60)

Arithmetic and Geometric Sequences. Determine whether each sequence is arithmetic, geometric, or neither. Explain your reasoning. 1. 7, 13, 19, 25, …2.

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

Thursday, March 8 How can we use geometric sequences and series?

12.3 – Analyze Geometric Sequences and Series. Geometric Sequence: Ratio of any term to the previous term is constant Common Ratio: Ratio each term is.

+ 8.4 – Geometric Sequences. + Geometric Sequences A sequence is a sequence in which each term after the first is found by the previous term by a constant.

Geometric Sequences. Warm Up What do all of the following sequences have in common? 1. 2, 4, 8, 16, …… 2. 1, -3, 9, -27, … , 6, 3, 1.5, …..

How do we solve exponential and logarithmic equations and equalities?

LINEAR VS. EXPONENTIAL FUNCTIONS & INTERSECTIONS OF GRAPHS.

Holt McDougal Algebra 2 Introduction to Sequences Holt Algebra 2Holt McDougal Algebra 2 How do we find the nth term of a sequence? How do we write rules.

Holt McDougal Algebra 2 Geometric Sequences and Series Holt Algebra 2Holt McDougal Algebra 2 How do we find the terms of an geometric sequence, including.

Chapter 13: Sequences and Series

9-1 Geometric Sequences Warm Up Lesson Presentation Lesson Quiz

Geometric Sequences and Series

The sum of the first n terms of an arithmetic series is:

Introduction to Sequences

12.1/12.2 – Arithmetic and Geometric Sequences

SEQUENCES AND SERIES.

Geometric Sequences and Series

What comes Next? Lesson 3.11.

AKS 67 Analyze Arithmetic & Geometric Sequences

The Natural Base, e Essential Questions

Introduction to Sequences

7-8 Notes for Algebra 1 Recursive Formulas.

Objectives Find terms of a geometric sequence, including geometric means. Find the sums of geometric series.

3-6 Arithmetic Sequences Warm Up Lesson Presentation Lesson Quiz

1.7 - Geometric sequences and series, and their

Unit 1 Test #3 Study Guide.

Introduction to Sequences

3-6 Arithmetic Sequences Warm Up Lesson Presentation Lesson Quiz

10.2 Arithmetic Sequences and Series

Notes Over 11.5 Recursive Rules

Objectives Find the indicated terms of an arithmetic sequence.

Warm up 1. One term of a geometric sequence is a5 = 48. The common ratio is r = 2. Write a rule for the nth term. 2. Find the sum of the geometric.

Introduction to Sequences

Geometric Sequences and Series

Unit 3: Linear and Exponential Functions

Geometric Sequences and series

Introduction to Sequences

Warm-Up Honors Algebra 2 9/7/18

Presentation transcript:

Essential Questions Geometric Sequences and Series How do we find the terms of an geometric sequence, including geometric means? How do we find the sums of geometric series? Holt McDougal Algebra 2 Holt Algebra 2

Serena Williams was the winner out of 128 players who began the 2003 Wimbledon Ladies’ Singles Championship. After each match, the winner continues to the next round and the loser is eliminated from the tournament. This means that after each round only half of the players remain.

The number of players remaining after each round can be modeled by a geometric sequence. In a geometric sequence, the ratio of successive terms is a constant called the common ratio r (r ≠ 1) . For the players remaining, r is .

Recall that exponential functions have a common ratio. When you graph the ordered pairs (n, an) of a geometric sequence, the points lie on an exponential curve as shown. Thus, you can think of a geometric sequence as an exponential function with sequential natural numbers as the domain.

Identifying Geometric Sequences Determine whether the sequence could be geometric or arithmetic. If possible, find the common ratio or difference. 1. 100, 93, 86, 79, . . . Diff. It could be arithmetic, with d = –7. Ratio 2. 180, 90, 60, 15, . . . Diff. It is neither. Ratio

Identifying Geometric Sequences Determine whether the sequence could be geometric or arithmetic. If possible, find the common ratio or difference. 3. 5, 1, 0.2, 0.04, . . . Diff. It could be geometric, with r = 0.2. Ratio 4. 1.7, 1.3, 0.9, 0.5, . . . Diff. It could be arithmetic, with d = –0.4. Ratio

The nth term of an geometric sequence is where a1 is the first term and r is the common ratio. General Rule for Geometric Sequence To state a recursive rule of an geometric sequence, state the first term and the rule in the following form: where a1 is the first term and r is the common ratio. Recursive Rule for Geometric Sequence

Finding the nth Term Given a Geometric Sequence Write a rule for the nth term of the geometric sequence. Then find a7.

Finding the nth Term Given a Geometric Sequence Write a rule for the nth term of the geometric sequence. Then find a7.

Finding the nth Term Given a Geometric Sequence Write a rule for the nth term of the geometric sequence. Then find a7.

Finding the nth Term Given Two terms of a Sequence Write a rule for the nth term of the geometric sequence. Then find a8.

Finding the nth Term Given Two terms of a Sequence Write a rule for the nth term of the geometric sequence. Then find a8.

Writing a Recursive Rule for an Geometric Sequence Write the recursive rule for the nth term of the sequence.

Writing a Recursive Rule for an Geometric Sequence Write the recursive rule for the nth term of the sequence.

Lesson 5.3 Practice A