Dr. TeBeest's MATH-305 Page

Math-305, Numerical Methods & Matrices

Dr. K. G. TeBeest
Fall 2011

Course Policy	Dr. TeBeest's Schedule
Rules Regarding Programming Projects	Maple Tutorials
Comments about Final Exams	Developing Good Study Habits
ANNOUNCEMENTS YOU ARE EXPECTED TO CHECK THE ANNOUNCEMENTS DAILY. What are you doing to prepare for our final exam? FINAL EXAM: Thursday, December 15 (Week 11), 1:00 to 3:00 P.M. (posted here Friday of Week 3) ROOM: AB 2-225 The final exam may include anything from Assignment 17 to the end of the course. See below. I posted the crib sheet on Wed., Dec. 7: Click here for information about our final exam and to see the crib sheet. Here's Kettering's Final Exam Schedule. If you are interested in purchasing the student version of Maple at a discounted price for your personal computer, please email me for the necessary information. Only students registered for my course qualify. How much should a college student study?

You should check this page daily and begin working the assignments immediately after they are posted.
You are expected to do all assigned problems. You may need to do additional problems for practice.
You are expected to read the textbook as we cover the material.
The day the assignment was posted is shown.

Assignments:

Do all the examples in the first Maple tutorial entitled Basics. October 3
1. Do not use the shortcut menu buttons in the left panel of Maple. Rather, manually type the commands as they appear in the Maple examples.
2. You should work all assigned Maple examples immediately to help you prepare for the programming assignments.
3. There may be Maple related questions on exams (see the course policy).
Kettering has made Maple amply available on many PCs throughout the AB.
Read Sections 0.1, 0.4, and 0.6. October 5
(Because you should always read sections as we cover the material, normally I do not post reading assignments.)
Since Maple is a required component of this course, you should be finished or nearly finished with Assignment 1 by now.
Do this problem on truncation error. (requires Acrobat Reader) October 6
Section 0.7 – Polynomial Nested Form / Truncation Error. October 6
Do all the examples in the second Maple tutorial entitled Solutions of Equations. October 7
You should complete Assignment 1 before doing this one. Remember that these assignments will acquaint (or reacquaint) you with Maple and prepare you for the programming assignments.
Read Section 1.1. (We began the topic on Friday, and I will post an assignment for it on Monday.) October 7
Section 1.1 – Bisection Method. October 10
You won't be able to do some of these problems until after Wednesday's lecture.
Write the Maple code for the Bisection Method. October 12
NOTE: Do this immediately, and play with the code by changing the starting interval, the tolerance, even the function. You will use this code as the template (model) for writing the codes for other methods and for the first programming assignment.
Section 1.2(a) – False Position. October 13
Do all the examples in the 8th Maple tutorial entitled Formatted Printing and Plot Options. October 13
Then change your Maple code for the bisection method so that it uses formatted printing.
Section 1.2(b) – Modified Linear Interpolation. October 13
Section 1.4 – Müller's Method. October 14
Section 1.3 – Newton's Method. October 14
Program Assignment 1. Due Wednesday, Oct. 26. (Posted Monday, Oct. 17)
Read this document before beginning this assignment.
- You should have the bisection code (see Assignments 7 & 8) running properly before you attempt this program assignment.
- You should also study the pseudocode for Newton's method (Assignment 13) and use formatted printing as explained in Assignment 10. Print each x and f to 12 decimal places.
- Review the Rules Regarding Programming Projects before working on this assignment.
- Here are the results you should obtain from the first 3 iterations of Part I. Do NOT proceed to Part II until Part I works correctly.
Section 1.5 – Fixed Point Method. October 19
Section 1.5 – Fixed Point Method with Aitken Acceleration. October 20
EXAM 1 CONTENT ENDS HERE. . .
THE FINAL EXAM CONTENT BEGINS HERE. . .
EXAM 2 CONTENT BEGAN HERE. . .
Section 3.2 – Newton-Gregory Interpolating Polynomials. October 27
Do this example that shows how to use Maple to generate an interpolating polynomial through points. October 28
Start reading Section 5.2, especially over the Trapezoidal Rule.
Sections 5.2 & 5.3 – Proper Integrals: Trapezoidal Rule and Simpson's Rules. October 31
We will cover Richardson Extrapolation on Wednesday.
Note: This is a running assignment -- do the problems on this sheet as we cover the material.
Section 5.2 – Code for the Trapezoidal Rule. November 2
NOTE: Do this immediately, and play with the code by changing the number of subintervals, the limits of integration, even the integrand f(x). You will use this code as the template (model) for writing the codes for other methods and for the second programming assignment.
Section 5.3: Simpson's – 1/3 Rule. November 3
Section 5.3: Simpson's – 3/8 Rule. November 4
Program Assignment 2. Due Wednesday, November 16 (Week 7). Posted and handed out Friday, November 4 (Week 5).
You should have the trapezoidal rule (see Assignment 20) and Simpson's–1/3 rule (see Assignment 21) running properly before you attempt this program assignment. You will use it as a template (model) for this project.
Read this document.
Click here to see an animation of a rotating turbine rotor created using Maple.
Do all the examples in the third Maple Tutorial entitled Derivatives and Integrals. November 7
Recall that Assignment 19 is a running assignment.
Section 5.6 – Gauss Quadrature. November 9
EXAM 2 CONTENT ENDED HERE.
Section 5.1 – Numerical Differentiation. November 10
If you didn't do them in Assignment 10, do all the examples in this Maple tutorial entitled Formatted Printing and Plot Options. November 16
Chapter 6 (a) – Implicit Euler Method. November 17
Chapter 6 – Numerical Solutions of ODEs. November 18 This is a running assignment.
Write this Maple code for Euler's Method. November 18
NOTE: Do this immediately, and play with the code by changing the nodal stepsize, the interval endpoints, the IC, even the ODE. Use it to check your work on some of the homework problems. You will use this code as the template (model) for writing the codes for other methods and for the third project.
Additional Programs for Solving IVPs. November 23 This is a running assignment.
BEWARE: The math faculty have observed that during the final 3 to 4 weeks of a term, many students have a tendency to: 1) skip class more, and 2) let their studies in math courses slide. Be careful not to do that! Too often I see students leave entire pages blank on the final exam (indicating that they probably did not do the assigned homework), and consequently end up seriously hurting their course grade. Remember that the final exam is worth 30% of the course grade, so make sure you continue to study and do all the assigned homework.
Program Assignment 3. Due Thursday, Dec. 8 (Week 10). posted on Monday morning, Nov. 28 (actually Sunday evening)
See Assignments 27, 29, 30, and 31. Also read this document Programming Requirements.
Here are the formulas for the Classical Runge-Kutta method. See some of the results for the sample problem in Part I.
Section 6.3: Runge-Kutta-Fehlberg and Runge-Kutta-Verner Methods. November 30
Section 2.1 – Matrix Introduction. December 1
Section 2.2 – Gauss Elimination. December 5
Section 2.2(b) – LU Decomposition. December 7
Read and do these Maple examples for solving a system of linear equations. December 8
Determinants and Existence-Uniqueness of Solutions. December 8
Section 2.2(d) – Homogeneous Systems. December 9
Section 2.3 – Matrix Inversion. December 9
Section 2.3(b) – More on Determinants and Singular Matrices. December 9
Section 2.5 – The Jacobi Method and the Gauss-Seidel Method. December 12
THE FINAL EXAM CONTENT ENDS HERE.
Click here for detailed information about the final exam.
This info was posted several weeks ago.

Remember that:

You are responsible for successfully completing all assigned problems in all your courses.
The exams may include problems similar to these assignments and lecture examples and may include questions about Maple.
We must maintain a steady pace to cover the material that constitutes Math-305. If you have difficulty with a section, be sure to see me for help immediately.
No matter how simple a topic appears when you see my examples or read the text, you will almost certainly have difficulty completing an exam if you do not practice the examples and do the assignments beforehand.