Presentation is loading. Please wait.

Presentation is loading. Please wait.

TESTS FOR CONVERGENCE AND DIVERGENCE Section 8.3b.

Published byMargery Mason Modified over 7 years ago

Similar presentations

Presentation on theme: "TESTS FOR CONVERGENCE AND DIVERGENCE Section 8.3b."— Presentation transcript:

1 TESTS FOR CONVERGENCE AND DIVERGENCE Section 8.3b

2 Sometimes we cannot evaluate an improper integral directly  In these cases, we first try to determine whether it converges or diverges. Diverges???... End of story, we’re done. Converges???... Use numerical methods to Approximate the value of the integral.

3 Investigating Convergence Does the integral converge? Definition from last class: We cannot directly evaluate this last integral directly because there is no simply formula for the antiderivative of the integrand… Instead, compare the integral to one we can evaluate… Graph both functions in [0, 3] by [–0.5, 1.5]: And note that for

4 Investigating Convergence Does the integral converge? Thus, for any Because the integral of the larger function converges, the integral of the smaller function converges as well. However, this does not tell us the value of the improper integral, except that it is positive and less than 0.368…

5 Investigating Convergence Does the integral converge? Evaluate numerically: Try graphing: in [0, 20] by [–0.1, 0.3] What does the graph suggest as ?

6 Direct Comparison Test Let and be continuous on and let for all. Then 1. converges if converges. 2. diverges if diverges.

7 Investigating Convergence Does the integral converge? Compare this integrand to : on So because the integral of this “larger” function converges, the original integral converges as well!

8 Investigating Convergence Does the integral converge? Compare this integrand to : on So because the integral of this “smaller” function diverges, the original integral diverges as well!

9 Limit Comparison Test If the positive functions and are continuous on and if thenand both converge or diverge If two functions grow at the same rate as x approaches infinity (recall Section 8.2?), then their integrals from a to infinity behave alike; they both converge or both diverge.

10 Investigating Convergence Show that converges by comparison with Find and compare the two integral values. The two functions are positive and continuous on the given interval… Use the new rule: Form Thus, both integrals converge. Now to find their value…

11 Investigating Convergence Show that converges by comparison with Find and compare the two integral values. (from earlier in class)

12 Investigating Convergence Show that converges. Compare with:  This integral converges (an example from earlier in class) to a value of about 0.368… Thus, the original integral also converges!

13 Investigating Convergence Use integration, the direct comparison test, or the limit comparison test to determine whether the given integral converges or diverges. The integral converges

14 Investigating Convergence Use integration, the direct comparison test, or the limit comparison test to determine whether the given integral converges or diverges. Compare to : on Since this integral diverges, the given integral diverges

Download ppt "TESTS FOR CONVERGENCE AND DIVERGENCE Section 8.3b."

Similar presentations

Improper Integrals II. Improper Integrals II by Mika Seppälä Improper Integrals An integral is improper if either: the interval of integration is infinitely.

Improper Integrals II. Improper Integrals II by Mika Seppälä Improper Integrals An integral is improper if either: the interval of integration is infinitely.
Improper Integrals I.

Improper Integrals I.
Business Calculus Improper Integrals, Differential Equations.

Business Calculus Improper Integrals, Differential Equations.
Chapter 7 – Techniques of Integration

Chapter 7 – Techniques of Integration
In this section, we will define what it means for an integral to be improper and begin investigating how to determine convergence or divergence of such.

In this section, we will define what it means for an integral to be improper and begin investigating how to determine convergence or divergence of such.
8 TECHNIQUES OF INTEGRATION. In defining a definite integral, we dealt with a function f defined on a finite interval [a, b] and we assumed that f does.

8 TECHNIQUES OF INTEGRATION. In defining a definite integral, we dealt with a function f defined on a finite interval [a, b] and we assumed that f does.
Improper integrals These are a special kind of limit. An improper integral is one where either the interval of integration is infinite, or else it includes.

Improper integrals These are a special kind of limit. An improper integral is one where either the interval of integration is infinite, or else it includes.
Convergence or Divergence of Infinite Series

Convergence or Divergence of Infinite Series
Infinite Intervals of Integration

Infinite Intervals of Integration
Integration of irrational functions

Integration of irrational functions
Integration. Indefinite Integral Suppose we know that a graph has gradient –2, what is the equation of the graph? There are many possible equations for.

Integration. Indefinite Integral Suppose we know that a graph has gradient –2, what is the equation of the graph? There are many possible equations for.
Clicker Question 1 Use Simpson’s Rule with n = 2 to evaluate – A. (2  2 + 1) / 3 – B. 2 /  – C. (2  2 + 1) / 6 – D. 0 – E. (2  2 – 1) / 3.

Clicker Question 1 Use Simpson’s Rule with n = 2 to evaluate – A. (2  2 + 1) / 3 – B. 2 /  – C. (2  2 + 1) / 6 – D. 0 – E. (2  2 – 1) / 3.
4.6 Numerical Integration -Trapezoidal Rule -Simpson’s Rule

4.6 Numerical Integration -Trapezoidal Rule -Simpson’s Rule
4.6 Numerical Integration Trapezoid and Simpson’s Rules.

4.6 Numerical Integration Trapezoid and Simpson’s Rules.
1 Numerical Integration Section 4.6. 2 Why Numerical Integration? Let’s say we want to evaluate the following definite integral:

1 Numerical Integration Section Why Numerical Integration? Let’s say we want to evaluate the following definite integral:
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.

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.
5.5 The Substitution Rule In this section, we will learn: To substitute a new variable in place of an existing expression in a function, making integration.

5.5 The Substitution Rule In this section, we will learn: To substitute a new variable in place of an existing expression in a function, making integration.
Review Of Formulas And Techniques Integration Table.

Review Of Formulas And Techniques Integration Table.
The importance of sequences and infinite series in calculus stems from Newton’s idea of representing functions as sums of infinite series.  For instance,

The importance of sequences and infinite series in calculus stems from Newton’s idea of representing functions as sums of infinite series.  For instance,
Section 5.3: Evaluating Definite Integrals Practice HW from Stewart Textbook (not to hand in) p. 374 # 1-27 odd, 31-43 odd.

Section 5.3: Evaluating Definite Integrals Practice HW from Stewart Textbook (not to hand in) p. 374 # 1-27 odd, odd.

Similar presentations

Ads by Google