Test Corrections You may correct your test. You will get back 1/3 of the points you lost if you submit correct answers. This work is to be done on your.

Slides:

Advertisements

Similar presentations

Tests for Convergence, Pt. 2

Advertisements

9.1 Power Series.

Series (i.e., Sums) (3/22/06) As we have seen in many examples, the definite integral represents summing infinitely many quantities which are each infinitely.

Introduction We have seen series that are finite, meaning they have a limited number of terms, but what happens to a series that has infinite terms? A.

Sec 11.3 Geometric Sequences and Series Objectives: To define geometric sequences and series. To define infinite series. To understand the formulas for.

11.4 Geometric Sequences Geometric Sequences and Series geometric sequence If we start with a number, a 1, and repeatedly multiply it by some constant,

Section 11-1 Sequences and Series. Definitions A sequence is a set of numbers in a specific order 2, 7, 12, …

Chapter 9 Sequences and Series The Fibonacci sequence is a series of integers mentioned in a book by Leonardo of Pisa (Fibonacci) in 1202 as the answer.

Clicker Question 1 – A. converges to 1 – B. converges to 1/5 – C. converges to -1/5 – D. converges to 5 – E. diverges.

SEQUENCES AND SERIES Arithmetic. Definition A series is an indicated sum of the terms of a sequence.  Finite Sequence: 2, 6, 10, 14  Finite Series:2.

Goal: Does a series converge or diverge? Lecture 24 – Divergence Test 1 Divergence Test (If a series converges, then sequence converges to 0.)

Section 9.2 – Series and Convergence. Goals of Chapter 9.

Test Corrections You may correct the in-class portion of your test. You will get back 1/2 of the points you lost if you submit correct answers. This work.

Improper Integrals. Examples of Improper Integrals Integrals where one or both endpoints is infinite or the function goes to infinity at some value within.

Test Corrections You may correct your test. You will get back 1/3 of the points you lost if you submit correct answers. This work is to be done on your.

Test Corrections (3/3/14) All students should correct their tests! You can hand in your corrections, receiving 1/3 of the lost points. Correct on a separate.

Infinite Series (4/4/14) We now study a “discrete” analogue of improper integrals, in which we asked if the areas represented by integrals of unbounded.

Geometric Sequences & Series

Section 8.2: Series Practice HW from Stewart Textbook (not to hand in) p. 575 # 9-15 odd, 19, 21, 23, 25, 31, 33.

9.1 Part 1 Sequences and Series.

Section 9-4 Sequences and Series.

Chapter 11 Sec 3 Geometric Sequences. 2 of 18 Algebra 2 Chapter 11 Sections 3 – 5 Geometric Sequence A geometric sequence is a sequence in which each.

Copyright © Cengage Learning. All rights reserved.

Infinite Geometric Series

Ch.9 Sequences and Series

9.1 Power Series.

Section 9.3 Convergence of Sequences and Series. Consider a general series The partial sums for a sequence, or string of numbers written The sequence.

Power Series Section 9.1a.

AP Calculus Miss Battaglia  An infinite series (or just a series for short) is simply adding up the infinite number of terms of a sequence. Consider:

One important application of infinite sequences is in representing “infinite summations.” Informally, if {a n } is an infinite sequence, then is an infinite.

CHAPTER Continuity Series Definition: Given a series   n=1 a n = a 1 + a 2 + a 3 + …, let s n denote its nth partial sum: s n =  n i=1 a i = a.

Geometric Sequences & Series This chapter focuses on how to use find terms of a geometric sequence or series, find the sum of finite and infinite geometric.

MTH 253 Calculus (Other Topics)

In this section, we will begin investigating infinite sums. We will look at some general ideas, but then focus on one specific type of series.

Geometric Series. In a geometric sequence, the ratio between consecutive terms is constant. The ratio is called the common ratio. Ex. 5, 15, 45, 135,...

Sequences (11/14/12) A sequence is an infinite list of real numbers: {a1, a2, a3, a4, a5 ….} = {an}. (Order counts!) A sequence can be described by listing.

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.

Honors Precalculus Day 3 Section 11.3 Geometric Sequences The end of new material…BOO!!! 3/12/2016.

Geometric Sequence – a sequence of terms in which a common ratio (r) between any two successive terms is the same. (aka: Geometric Progression) Section.

13.3 Arithmetic and Geometric Series and Their Sums Finite Series.

Ch. 10 – Infinite Series 9.1 – Sequences. Sequences Infinite sequence = a function whose domain is the set of positive integers a 1, a 2, …, a n are the.

9.1 Power Series AP Calculus BC. This is an example of an infinite series. 1 1 Start with a square one unit by one unit: This series converges (approaches.

13.5 – Sums of Infinite Series Objectives: You should be able to…

OBJECTIVE TSW (1) list the terms of a sequence; (2) determine whether a sequence converges or diverges; (3) write a formula for the nth term of a sequence;

Arithmetic and Geometric sequence and series

Series and Convergence (9.2)

MTH 253 Calculus (Other Topics)

Clicker Question 1 The series

Direct and Limit Comparison Test

The Integral Test; p-Series

Start with a square one unit by one unit:

Clicker Question 1 What is 1 - 5/4 + 25/ /64 + …  5n/4n + … ?

1.6A: Geometric Infinite Series

Testing Infinite Series – Summary 11/30/12

Clicker Question 1 What is the Simpson’s Rule estimate for the integral of f (x) = x2 + 1 on the interval [0, 4] using only two subdivisions? A. 12 2/3.

Test Corrections You may correct your test. You will get back 1/3 of the points you lost if you submit correct answers. This work is to be done on your.

Series and Convergence

Clicker Question 1 What is the Simpson’s Rule estimate for the integral of f (x) = x2 + 1 on the interval [0, 4] using only two subdivisions? A. 12 2/3.

Homework Questions.

Geometric Sequences and Series

Infinite Series One important application of infinite sequences is in representing “infinite summations.” Informally, if {an} is an infinite sequence,

Math 20-1 Chapter 1 Sequences and Series

9.2 Series & Convergence Objectives:

Geometric Sequences and series

Section 2 – Geometric Sequences and Series

Geometric Sequences and Series

Warm Up Use summation notation to write the series for the specified number of terms …; n = 7.

Copyright © Cengage Learning. All rights reserved.

Section 12.3 Geometric Sequences; Geometric Series

SEQUENCES AND SERIES.

Presentation transcript:

Test Corrections You may correct your test. You will get back 1/3 of the points you lost if you submit correct answers. This work is to be done on your own (or in consultation with me only). Skidmore Honor Code! Corrections should be done on separate sheets, NOT on the original test. Hand both things in, NOT stapled together. Due on Tuesday (11/20) at 5 pm. Office hours on Tuesday 9-11 and 2-5.

Clicker Question 1 {1, 1/2, 1, 1/3, 1, 1/4, 1, 1/5, …} – A. converges to 1 – B. converges to 0 – C. converges to ½ – D. diverges

Clicker Question 2 {1, 1 + 1/3, 1 + 1/3 + 1/9, 1 + 1/3 + 1/9 + 1/27, …} – A. converges to 1 – B. converges to 2 – C. converges to some number between 1 and 2 – D. diverges – E. we don’t have enough info to tell if it converges or diverges.

Infinite Series (11/16/12) We now study a “discrete” analogue of improper integrals, in which we asked if the areas represented by integrals of unbounded regions converged or diverged. These discrete (as opposed to continuous) objects are just sums, but are called series. Exactly as with improper integrals, we can ask if a given series converges or diverges, and if the former, to what?

Convergence of Infinite Series An infinite series  a n is said to converge to L if the sequence of partial sums {a 1, a 1 +a 2, a 1 +a 2 +a 3, a 1 +a 2 +a 3 +a 4, …} converges to L. Otherwise the series diverges. Note that this is again exactly analogous to improper integrals.

Some simple (?) examples 1 + 1/2 + 1/4 + 1/8 + 1/16 (this is a finite sum, not a series) 1 + 1/2 + 1/4 + 1/8 + 1/16 + … 1 + 1/3 + 1/9 + 1/27 + … 1 + 1/2 + 1/3 + 1/4 + 1/5 + 1/6 + … 1 + 1/4 + 1/9 + 1/16 + 1/25 + … In each case, given a series: – 1. Does it converge or diverge? – 2. If it converges, to what?

Geometric Series The first two series on the previous slide are examples of geometric series. A series is called geometric if the ratio of any two adjacent terms stays constant. In the finite sum and the two series examples, the ratios are 1/2, 1/2, and 1/3. Hence a geometric series is one of the form a + a x + a x 2 + a x 3 + …, where a is a constant and where the constant ratio is x.

Summing a geometric series Geometric series are very easy to sum up: just multiply the series by 1  x (x = the ratio). Hence the sum of a finite geometric sum which goes up to a x n is a(1  x n+1 )/(1  x) Use this formula to get the sum of the first example. If the ratio x satisfies that |x| < 1, then note that lim n  x n+1 = 0, so the sum on the previous slide becomes simply a / (1 – x).

Examples & Assignment for Mon Use this formula to work out the sum of the second and third examples. Use this formula to find the sum of the infinite geometric series 5 – 5/4 + 5/16 – 5/64 + … Calculate Assignment: - Read Section 11.2 as needed. – Do Exercises 1, 2, 5, 15, 17, 20, 23, 27, 31, 33, 39.