Clicker Question 1 What is ? A. x tan(x2) + C

Slides:

Advertisements

Similar presentations

Numerical Integration

Advertisements

6. 4 Integration with tables and computer algebra systems 6

1 Chapter 5 Numerical Integration. 2 A Review of the Definite Integral.

Integration – Adding Up the Values of a Function (4/15/09) Whereas the derivative deals with instantaneous rate of change of a function, the (definite)

Homework Homework Assignment #47 Read Section 7.1 Page 398, Exercises: 23 – 51(Odd) Rogawski Calculus Copyright © 2008 W. H. Freeman and Company.

8 TECHNIQUES OF INTEGRATION. There are two situations in which it is impossible to find the exact value of a definite integral. TECHNIQUES OF INTEGRATION.

1 Example 2 Estimate by the six Rectangle Rules using the regular partition P of the interval [0,  ] into 6 subintervals. Solution Observe that the function.

Riemann Sums and the Definite Integral Lesson 5.3.

Numerical Integration UC Berkeley Fall 2004, E77 Copyright 2005, Andy Packard. This work is licensed under the.

Numerical Integration In general, a numerical integration is the approximation of a definite integration by a “weighted” sum of function values at discretized.

Numerical Integration Approximating Definite Integral.

5.5 Numerical Integration Mt. Shasta, California Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 1998.

MAT 1235 Calculus II Section 7.7 Approximate (Numerical) Integration

Lecture 19 – Numerical Integration 1 Area under curve led to Riemann sum which led to FTC. But not every function has a closed-form antiderivative.

Chapter 7 – Techniques of Integration

4.6 Numerical Integration Trapezoid and Simpson’s Rules.

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

Clicker Question 1 What is the derivative of f(x) = 7x 4 + e x sin(x)? – A. 28x 3 + e x cos(x) – B. 28x 3 – e x cos(x) – C. 28x 3 + e x (cos(x) + sin(x))

A REA A PPROXIMATION 4-B. Exact Area Use geometric shapes such as rectangles, circles, trapezoids, triangles etc… rectangle triangle parallelogram.

Section 5.4a FUNDAMENTAL THEOREM OF CALCULUS. Deriving the Theorem Let Apply the definition of the derivative: Rule for Integrals!

Announcements Topics: -sections 7.3 (definite integrals) and 7.4 (FTC) * Read these sections and study solved examples in your textbook! Work On: -Practice.

Chapter 5-The Integral Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved.

Section 5.9 Approximate Integration Practice HW from Stewart Textbook (not to hand in) p. 421 # 3 – 15 odd.

Clicker Question 1 What is ? A. -2/x 3 + tan(x ) + C B. -1/x – 1/(x + 1) + C C. -1/x + tan(x ) + C D. -1/x + arctan(x ) + C E. -2/x 3 + arctan(x ) + C.

Section 5.1/5.2: Areas and Distances – the Definite Integral Practice HW from Stewart Textbook (not to hand in) p. 352 # 3, 5, 9 p. 364 # 1, 3, 9-15 odd,

Clicker Question 1 What is an antiderivative of f(x) = (5x – 3)  ? – A. (5/(  + 1))(5x – 3)  +1 – B. (1/(  + 1))(5x – 3)  +1 – C. 5  (5x – 3)  -

Clicker Question 1 Are you here? – A. Yes – B. No – C. Not sure.

Section 7.6 – Numerical Integration. represents the area between the curve 3/x and the x-axis from x = 4 to x = 8.

1 Example 1 Estimate by the six Rectangle Rules using the regular partition P of the interval [0,1] into 4 subintervals. Solution This definite integral.

Section 7.6 – Numerical Integration. represents the area between the curve 3/x and the x-axis from x = 4 to x = 8.

5.5 Numerical Integration. concave down concave up concave down concave up concave down.

Chapter Definite Integrals Obj: find area using definite integrals.

Warm up 10/16 (glue in). Be seated before the bell rings DESK homework Warm-up (in your notes) Agenda : go over hw Finish Notes lesson 4.5 Start 4.6.

In this section, we will begin to look at Σ notation and how it can be used to represent Riemann sums (rectangle approximations) of definite integrals.

WS: Riemann Sums. TEST TOPICS: Area and Definite Integration Find area under a curve by the limit definition. Given a picture, set up an integral to calculate.

2/28/2016 Perkins AP Calculus AB Day 15 Section 4.6.

Warm up HW Assessment You may use your notes/ class work / homework.

Sect. 4.1 Antiderivatives Sect. 4.2 Area Sect. 4.3 Riemann Sums/Definite Integrals Sect. 4.4 FTC and Average Value Sect. 4.5 Integration by Substitution.

Integrals NO CALCULATOR TEST Chapter 5. Riemann Sums 5.1.

Clicker Question 1 What is ? (Hint: u-sub) – A. ln(x – 2) + C – B. x – x 2 + C – C. x + ln(x – 2) + C – D. x + 2 ln(x – 2) + C – E. 1 / (x – 2) 2 + C.

Announcements Topics: -sections 7.3 (definite integrals) and 7.4 (FTC) * Read these sections and study solved examples in your textbook! Work On: -Practice.

Copyright © Cengage Learning. All rights reserved. 7 Techniques of Integration.

Announcements Topics: -sections 7.3 (definite integrals) and 7.4 (FTC) * Read these sections and study solved examples in your textbook! Work On: -Practice.

Approximating Antiderivatives. Can we integrate all continuous functions? Most of the functions that we have been dealing with are what are called elementary.

Numerical Integration using Trapezoidal Rule

5.5 Numerical Integration

5.5 The Trapezoid Rule.

Lecture 19 – Numerical Integration

Copyright © 2014, 2010, 2007 Pearson Education, Inc.

Approximate Integration

Midpoint and Trapezoidal Rules

More Approximations Left-hand sum: use rectangles, left endpoint used for height Right-hand sum: use rectangles, right endpoint used for height Midpoint.

NUMERICAL INTEGRATION

4-6 Numerical integration (The Trapezoidal Rule)

Approximating Definite Integrals. Left Hand Riemann Sums.

Approximating Definite Integrals. Left Hand Riemann Sums.

Integration & Area Under a Curve

TECHNIQUES OF INTEGRATION

5.3 – The Definite Integral and the Fundamental Theorem of Calculus

Section 4.3 – Area and Definite Integrals

Clicker Question 1 What is A. Converges to 4/5 B. Converges to -4/5

5.5 Numerical Integration

Using integrals to find area works extremely well as long as we can find the antiderivative of the function. Sometimes, the function is too complicated.

Warm-up 2/4 Find the AVERAGE VALUE of

5.5 Numerical Integration

5.5 Numerical Integration

Chapter 5 Integration.

Jim Wang Mr. Brose Period 6

Section 4 The Definite Integral

Presentation transcript:

Clicker Question 1 What is ? A. x tan(x2) + C B. ½ (sec(x2) + tan(x2)) + C C. ln |sec(x2) + tan(x2)| + C D. ½ tan(x2) + C E. ½ ln |sec(x2) + tan(x2)| + C

Clicker Question 2 What is ? A. x2 tan(x) + C B. x tan(x) + sec2(x) + C C. x tan(x) – ln |sec(x)| + C D. ½ x2 tan(x) + C E. x tan(x) + ln |sec(x)| + C

Numerical (or Approximate) Integration (2/14/14) To evaluate a definite integral, we always hope to apply the Fundamental Theorem by finding an antiderivative and then evaluating it at the endpoints. But this isn’t always possible or practical. Another option always available is to do numerical integration to approximate the answer. Here we use Riemann sums.

Getting Good Approximations In general, the more data you use (i.e., the more rectangles you measure), the better the estimate. Methods (in increasing order of accuracy for a fixed number of rectangles) Left or right-hand endpoints Trapezoid Rule (average of the above) Midpoint Rule Simpson’s Rule

Simpson’s Rule It turns out that the Midpoint Rule is about twice as accurate as the Trapezoid Rule and the errors are in opposite directions. Hence we form a “weighted average”: Simpson’s Rule = (2 Midpoint + Trapezoid) / 3 Simpson’s Rule is in general extremely accurate even for small n (i.e., few rectangles). Can get Simpson directly from the data using (1 + 4 + 2 + 4 + 2 +…+ 2 + 4 + 1) / 6

Clicker Question 3 Suppose a definite integral has the following estimates for 10 subdivisions of the interval: Left-hand sum: 12.5 Right-hand sum: 16.5 Midpoint Rule sum: 13.0 What is the Simpson’s Rule estimate? A. 13.5 B. 13.0 C. 13.75 D. 14.0 E. 13.25

Assignment for Monday Finish up Hand-in #2 (due Monday in class) Section 7.7 goes into much more detail on approximate integration than we need to, and defines Simpson’s Rule slightly differently, so just work from our notes please. Do Exercise 3 on page 516 (note: no known way to use FTC on this one), but also compute the Simpson’s Rule estimate with n = 4 (i.e., use 9 data points) both using the weighted average of Trap and Mid and the (1-4-2-4-2-4-2-4-1) / 6 method.