Assignments will be posted below
AS we cover the material.
 Do all the examples in the first Maple tutorial entitled
Basics.
January 12
 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.
 You should work all assigned Maple examples immediately to
help you prepare for the programming assignments.
 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.
January 12
(Because you should always read sections as we cover the material,
normally I do not post reading assignments.)
Recall that you should be forming your teams of
3 for working the Programming Assignments. (No more than 3 per team.)
 Section 0.7 – Polynomial Nested Form.
January 14
Since the use of Maple is required in this course, you should be
finished with Assignment 1 by now.
Read Sections 1.1 and 1.2. Also play with Maple.
January 14
 Section 1.1 – Bisection Method.
January 16
 Write the Maple code for the
Bisection Method.
January 20
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 for writing the codes for other methods and for our
first programming assignment.
 Do all the examples in the 8th Maple tutorial entitled
Formatted Printing and Plot
Options.
January 21
Then change your Maple code for the bisection method so that it uses
formatted printing.
From now on we will use the
printf command for printing.
 Section 1.2(a) – False Position.
January 21
 Do all the examples in the second Maple tutorial entitled
Solutions of Equations.
January 22
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.
 Section 1.3 – Newton's Method.
January 23

Program Assignment 1.
Due Wednesday, Feb. 4 at the beginning of class.
(Posted Thursday, Jan. 22)
Read this
document before beginning this assignment.
 You should have the code for the bisection method and
Assignment 5 successfully completed before you attempt this.
 You should also study the pseudocode for Newton's method
(assignment 8) and use formatted printing as explained in
Assignment 5.
 Here are some of the results
you should obtain in the first 4 iterations of Part I.
Do NOT proceed until Part I works correctly.
 Section 1.5 – Fixed Point Method.
January 26
 Section 1.5(b) – Fixed Point Method
with Aitken Acceleration.
December 27
THE FINAL EXAM CONTENT BEGINS HERE. . .
Click here for more details.
 Section 3.2 – NewtonGregory Interpolating
Polynomials.
Feb. 4
(covered Wednesday, Friday, & Wednesday)
 Do this example that shows how to use Maple to generate an
interpolating polynomial through
points.
February 6
You should rework Exam 1 immediately after it
is returned.
(Recall that a score below 64% is an F. See the course policy.)
The median score was 89%!
(So half the class scored above 89 and half scored below 89.)
See the grade distribution.
 Sections 5.2 & 5.3 – Proper Integrals:
Trapezoidal Rule and Simpson's Rules.
February 10
Note: This is a running assignment — do the problems on
this sheet as we cover the material.
 Write the Maple code for the trapezoidal rule.
February 12
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.
February 13
 Section 5.3: Simpson's – 3/8
Rule.
February 13
Recall that Assignment 15 is a running assignment.
 Do all the examples in the third
Maple Tutorial entitled Derivatives and
Integrals.
February 16
 Section 5.6 – Gauss Quadrature.
February 17

Program Assignment 2 is posted on BlackBoard.
Due Monday, March 2 (Week 8).
(Posted Tues., Feb. 17)
You should have the trapezoidal rule code (see Assignment 15)
running properly before you attempt this program assignment.
Read this document before
beginning this assignment.
Here are the abscissas and weights for the
6 point Gauss quadrature.
 Section 5.1 – Numerical Differentiation.
February 20
You should rework Exam 2 immediately after it is returned.
(Recall that a score below 64% is failing. See the course policy.)
I posted estimates of your midterm course grade on BannerWeb.
 Chapter 6 (a) – Implicit Euler Method.
February 25
 Chapter 6 – Numerical Solutions of ODEs.
February 25
This is a running assignment.
Facie (noun) \'fā • cē, 'fay
• see\
pl. facies \'fā • cēz, 'fay •
seez\ :
 an image of one's face taken by oneself or by another person using a
digital camera or phone,
especially for posting on social networking
sites or smartphones for personal identification.
 a photo ID showing only the face.
First Known Use of FACIE – 16:34 UTC,
October 12, 2014 by Kevin G. TeBeest, Michigan USA
Formerly: "profile photo" (archaic)
Usage: Professor TeBeest sent a photo of himself playing his
drums
to his brother who wanted a photo ID for his smartphone.
The brother whined saying, "Send me a photo of your ugly face you stupid. .
.!"
So Professor TeBeest sent his brother a facie.
Etymology: French façade
("a false, superficial, or artificial appearance or effect,"
Merriam–Webster); Italian facciata, a derivative of
faccia ("front"), from Latin facies ("face");
Geographical Use: worldwide
Not to be confused with selfie, which is a photo taken by oneself of
ones own body or part of the body, usually due to vanity.
The photo on your state driving license is an example of a facie, although
it is not a selfie.
Inform your friends and family! Let's make it
go viral.
Start using it in conversations and online and explain it when they ask you
what it means. It's fun!
