Record of daily activities, Math 172, Section 502, Calculus, Fall 2005

Monday, December 12

The final examination was given. Solutions are available online.

Monday, December 5

This was the last class meeting. We reviewed for the final examination to be given on Monday, December 12, from 8:00 to 10:00am.

Friday, December 2

The graded examination papers were returned. After a 10-point curve, the average score was 75. We started reviewing for the comprehensive final examination, which is scheduled for Monday, December 12, from 8:00 to 10:00am.

Wednesday, November 30

The third examination was given. Solutions are available online.

Tuesday, November 29

We continued reviewing for the third examination.

Monday, November 28

We reviewed for the third examination, which is scheduled for Wednesday, November 30.

Wednesday, November 23

No class meeting today. Have a safe Thanksgiving break.

Tuesday, November 22

We looked at some applications of the binomial formula, including an excerpt from the story "Lucky Numbers" in Richard Feynman's memoirs "Surely You're Joking, Mr. Feynman!"

Monday, November 21

We worked an example of expanding a function in a binomial series, recognizing the pattern of the general term, and estimating the error in truncating the series.
Reminders: Homework 13a on iLrn is due today, November 21, at 11:59pm. The third examination, covering chapter 10, is scheduled for Wednesday, November 30 (after the Thanksgiving break).

Friday, November 18

We looked at Newton's binomial series (section 10.8) and worked on Homework 13a on iLrn, which is due on Monday, November 21, at 11:59pm.

Wednesday, November 16

We looked at some examples of recognizing special infinite series (exercises 45-48 in section 10.7 on pages 633-634) and some examples of calculating limits by using series expansions instead of l'Hôpital's rule (exercises 38 and 39 on page 633).
Assignment: Homework 12b on iLrn is due on Thursday, November 17, at 11:59pm. Also you should work on the suggested homework problems for section 10.7.

Tuesday, November 15

We worked some examples of finding Maclaurin series and Taylor series, and we computed an integral to three-decimal-place accuracy by using a series expansion of the integrand. Assignment: Homework 12b on iLrn is due on Thursday, November 17, at 11:59pm.

Monday, November 14

We discussed Maclaurin series and Taylor series (section 10.7 in the textbook).
Assignment: Homework 12a on iLrn is due on Monday, November 14, at 11:59pm. Homework 12b on iLrn is due on Thursday, November 17, at 11:59pm.

Friday, November 11

We worked on homework 12a on iLrn, which is due on Monday, November 14, at 11:59pm. (Homework 12b, which is not yet available, will be due on Thursday, November 17.)

Wednesday, November 9

We looked at an example of finding a power series representation of a function, and we compared the graphs of several partial sums with the graph of the function on the interval of convergence of the series. We also compared the integral of the function (computed exactly via a substitution) with the integral of a partial sum.
Assignment: Homework 11 on iLrn is due on Thursday, November 10, at 11:59pm. Also you should work on the suggested homework problems for Chapter 10.

Tuesday, November 8

We discussed power series representations of functions. In particular, we computed that Σ_n2ⁿxⁿ/n equals -ln(1-2x) for x between -1/2 and 1/2, and we showed that the alternating sum of reciprocals of odd counting numbers equals π/4.
Assignment: Homework 11 on iLrn is due on Thursday, November 10, at 11:59pm.

Monday, November 7

We discussed the interval of convergence of a power series (section 10.5).
Assignment: Homework 10 on iLrn is due on Monday, November 7, at 11:59pm, and homework 11 is due on Thursday, November 10, at 11:59pm.

Friday, November 4

We discussed the ratio test and worked on homework 10 on iLrn, which is due on Monday, November 7, at 11:59pm.

Wednesday, November 2

We discussed absolute convergence and the alternating series test (section 10.4).
Reminder: Both parts of homework 9 on iLrn are due on Thursday, November 3, at 11:59pm.

Tuesday, November 1

We discussed the limit comparison test and worked on some exercises from section 10.3 on convergence of infinite series.

Monday, October 31

We discussed the comparison test and the integral test for infinite series.
Assignment: Both parts of homework 9 on iLrn are due on Thursday, November 3, at 11:59pm.

Friday, October 28

The graded examination papers were returned. The median score was 66. One student made a score of 100: good job! We worked on an exercise about convergence of infinite series, partly by hand and partly using Maple.

Wednesday, October 26

The second examination was given. Solutions are available online.

Tuesday, October 25

We reviewed for tomorrow's examination, which is based on the following sections in the textbook: 8.8 (approximate integration), 8.9 (improper integrals), 9.1 (separable differential equations), 9.2 (first-order linear differential equations), 9.3 (arc length), 9.4 (surface area), 9.6 (hydrostatic pressure and force), 10.1 (sequences), and 10.2 (series).

Monday, October 24

We looked at an example (exercise 24 on page 604 in section 10.3) of estimating the sum of an infinite series by comparing the tail of the series with an improper integral.
Reminders: Homework 8 on iLrn is due today, October 24, at 11:59pm. The second examination is scheduled for Wednesday, October 26.

Friday, October 21

We worked on the first part of online homework 8 (about infinite series).
Assignment: Both parts of homework 8 on iLrn are due on Monday, October 24, at 11:59pm.

Wednesday, October 19

We discussed geometric series (section 10.2).
Reminders: The second examination is scheduled for Wednesday, October 26. Homework 7 on iLrn is due Thursday, October 20, at 11:59pm.

Tuesday, October 18

We continued the discussion of sequences (section 10.1). We talked about the limit laws for convergent sequences, the squeeze theorem, and the monotonic sequence theorem.
Assignment: Homework 7 on iLrn is due Thursday, October 20, at 11:59pm.

Monday, October 17

We started a new topic: sequences and series (Chapter 10). We looked at some examples of sequences and limits of sequences.

Friday, October 14

We worked on areas of surfaces of revolution (exercises 2 and 8 on page 553 of section 9.4 in the textbook), partly by hand and partly with Maple.
Assignment: It is a good exercise to work out the integrals by hand (and check your answers with Maple or with a calculator). Also you should look at the suggested homework problems for section 9.4 (but don't worry about exercise 17 on page 553, since we skipped Simpson's rule).

Wednesday, October 12

We looked at some of the homework problems on iLrn that are due tomorrow, Thursday, October 13 at 11:59pm.

Tuesday, October 11

We discussed hydrostatic pressure and force (section 9.6 in the textbook).
Assignment: Homework 6 on iLrn is due Thursday, October 13 at 11:59pm.

Monday, October 10

We discussed the computation of arc length (section 9.3 in the textbook).
Assignment: Homework 6 on iLrn is due Thursday, October 13 at 11:59pm.

Friday, October 7

We worked on an exercise about approximate integration, partly by hand and partly using Maple.

Wednesday, October 5

We looked at a solution of exercise 74 on page 518 in section 8.9 about improper integrals, and we discussed the method of integrating factors for solving first-order linear differential equations (section 9.2).
Assignment: Homework 5 on iLrn is due tomorrow, Thursday, October 6, at 11:59pm.

Tuesday, October 4

We worked examples of solving differential equations by the method of separation of variables (section 9.1 in the textbook).
Assignment: Both parts of the fifth online homework are available on iLrn. The assignment is due on Thursday, October 6, at 11:59pm.

Monday, October 3

We discussed the approximation of definite integrals (section 8.8 in the textbook) by the left-hand-endpoint rule, the right-hand-endpoint rule, the trapezoidal rule, and the midpoint rule. We did an example of applying the error estimate for the midpoint rule.
Assignment: The first part of the fifth online homework is available on iLrn. The assignment is due on Thursday, October 6, at 11:59pm.

Friday, September 30

The graded examination papers were returned. The average score was 66. Two students made a score of 100: good job! We discussed the notion of improper integrals (section 8.9 in the textbook).
Assignment: Try the suggested homework problems for section 8.9. I will send an email announcement when the next online homework is available.

Wednesday, September 28

The first examination was given. Solutions are available online.

Tuesday, September 27

We reviewed for the first examination to be given on Wednesday, September 28.

Monday, September 26

We discussed the method of partial fractions (section 8.4 in the textbook).
Reminders: The fourth homework on iLrn is due tonight, September 26, at 11:59pm. The first examination is Wednesday, September 28, in class.

Friday, September 23

President Gates cancelled classes for Friday, September 23 because of Hurricane Rita.

Wednesday, September 21

We worked examples of integration via trigonometric substitution (exercises 2 and 6 on page 476 in section 8.3).
Assignment: The fourth online homework on iLrn is due on Sunday, September 25 Monday, September 26 at 11:59pm. Note that iLrn technical support is available on Sunday from 4:00pm to midnight at the toll-free telephone number (866) 267-4984. Also there is a Math 152/172 help session on Sundays from 7:30pm to 9:30pm in Blocker 165.

Tuesday, September 20

We worked examples of integrating products of powers of trigonometric functions (section 8.2). The techniques come into play in the integration of rational functions (the topic of section 8.4).
Assignment: Work on the suggested homework problems for sections 8.1 and 8.2.

Monday, September 19

We worked exercise 13 on page 451 in section 7.5 about average value, and we discussed the method of integration by parts (section 8.1).
Assignment: The third online homework assignment on iLrn is due today, September 19, at 10:00pm. You should also work on the suggested homework problems for section 8.1.

Friday, September 16

We worked on two problems about the work required to pump water out of a tank (exercises 17 and 19 on page 449 in section 7.4).
Assignment: The third online homework assignment on iLrn is due on Monday, September 19 at 10:00pm.

Wednesday, September 14

We discussed the notion of average value of a function and the mean-value theorem for integrals (section 7.5). Also we did an example of computing the work required to pump water out of a tank (exercise 16 on page 448 in section 7.4).
Assignment: An online homework will be forthcoming; watch for an announcement. Meanwhile, work on the suggested homework problems for sections 7.4 and 7.5.

Tuesday, September 13

We looked at another example of volumes using the shell method (exercise 29 on page 444 in section 7.3), and we did some examples of problems involving the computation of work (exercises 2 and 10 on page 448 in section 7.4).
Assignment: Because of technical problems at iLrn last night, the due date for the second online homework assignment is extended to 10:00pm tonight, September 13.

Monday, September 12

We discussed computation of volumes of revolution by the method of shells, illustrated by exercises 1, 18, and 28 on page 444 in section 7.3.
Assignment: Complete the second online homework assignment on iLrn, which is due today by 10:00pm. Then work on the suggested homework problems for section 7.3.

Friday, September 9

We looked at solutions of exercise 50 on page 439 (section 7.2) about the volume of a frustum of a cone, both by integrating using the disc method and by using similar triangles and the formula for the volume of a cone (see the geometry formulas inside the front cover of the textbook). Then we worked on the even-numbered problems 8-48 on page 407 (section 6.5) about integration via substitution, using Maple to check and get hints. For example, the Maple command int(x*sqrt(1+x²),x); produces an anti-derivative of the function x√(1+x²). The Maple command with(Student[Calculus1]): followed by the command IntTutor(); starts the integration tutor, which can give hints and solve integration problems step-by-step.
Assignment: The second online homework assignment on iLrn is due Monday, September 12, by 10:00pm. You should also do some more practice on integration by substitution.

Wednesday, September 7

We worked in groups on exercises 13-24 on page 438 in section 7.2 about volumes of revolution.
Assignment: You now have all the tools to do the second online homework assignment on iLrn. The assignment is due Monday, September 12, by 10:00pm. You should also try the suggested homework problems for section 7.2.

Tuesday, September 6

We looked at examples of computing volume by the method of integrating the area of a cross section.
Assignment: Read section 7.2. The first online homework assignment is due Wednesday, September 7, by 10:00pm. The second online homework assignment is due Monday, September 12, by 10:00pm.

Monday, September 5

We looked at an example of combining the fundamental theorem of calculus with the chain rule, discussed the idea behind the inflection-point problem in the first online homework, and did some examples of computing areas between curves.
Assignment: Read section 7.1 in the textbook about areas between curves. Work on the first online homework on iLrn. If you have finished that, try the suggested homework problems for section 7.1.

Friday, September 2

We started with an example of the method of substitution for computing definite integrals and the statement of both parts of the fundamental theorem of calculus. Then we logged in to the computers, opened Maple, and worked on getting Maple to do the following three computations.

1. ∫₀¹ √(1+x²)dx
   (Maple syntax: int(sqrt(1+x^2),x=0..1);)
2. √2 to 100 decimal places
   (Maple syntax: evalf[100](sqrt(2));)
3. plot the function x sin(x) e^-x on the interval [0,2π]
   (Maple syntax: plot(x*sin(x)*exp(-x), x=0..2*Pi);)

A further exercise is to find the first positive x for which the graph of y=x intersects the graph of y=tan(x). (Some things to try are the plot command plot({x,tan(x)},x=0..6,y=-5..5); and the fsolve command with an interval for x read off from the plot.)
Assignment: Work on the first online homework on iLrn.

Wednesday, August 31

We looked at solutions of problems 34 and 35 on page 387 at the end of section 6.3. Then we discussed one half of the fundamental theorem of calculus and the method of substitution.
Assignment: Read sections 6.4 and 6.5 and watch for an email announcing the first online homework using iLrn.

Tuesday, August 30

We looked at a solution of problem 40 on page 369 about the sum of cubes of integers. Then we looked at the definition of the area under a curve (equivalently, the integral of a positive function) as a limit of sums of areas of rectangles (Riemann sums).
Assignment: Read section 6.3 and do problems 29-35 on page 387 at the end of section 6.3.

Monday, August 29

We started with some warm-up exercises on the chain rule for derivatives. If you are shaky on this, review section 3.5 in the textbook. If you need to review trigonometric functions, see Appendix D in the textbook; the derivatives of trigonometric functions are covered in section 3.4. Also we did some warm-up exercises on summation notation. Then we looked at the fundamental idea behind integration: namely, approximating the area under a curve by sums of areas of rectangles.
Assignment: Read sections 6.1 and 6.2 in the textbook and work on exercise 40 on page 369 at the end of section 6.1 (not to hand in).