MAT 112-03/04 Syllabus                  Trigonometry                                                Fall 1998

Daily Assignments

Instructor: Jack Tompkins               Office: BR 212                    Phone: 962-3671

E-Mail: tompkinsj              Web Page: http://www.uncwil.edu/people/tompkinsj

Office Hours:      1000AM-1100AM M-F, 0200PM-0300PM TR, or by appointment.

                                Students are always welcome to drop-in my office.

Introduction: Welcome to MAT 112, a course in trigonometry. We will be studying important trigonometric concepts and applications. Topics include trigonometric equations, functions and graphs, as well as polynomial functions, sequences and induction. The graphing calculator, will be used extensively as a powerful tool for conceptualizing and aiding in the solution of diverse and interesting problems.

Text: Algebra and Trigonometry: A Graphing Approach, by Larson, Hostetler, and Edwards, Second Edition, Houghton Mifflin Company (referred to as LHE).

Additional Materials:

1. Graphing Technology Guide, by Benjamin N. Levy and Laurel Technical Services (referred to as GTG).
2. Study and Solutions Guide, by Edwards and Zook.
3. A graphing calculator. The TI-82 is used for all in-class calculator discussion. Students who use another calculator are responsible for making necessary adjustments. The Graphing Technology Guide provides assistance for a wide variety of Texas Instruments, Casio, Sharp, and Hewlett-Packard graphing calculators.

Material to be Covered:

Chapter	Title	Sections
Chapter 5	Trigonometric Functions	5.1-5.7
Chapter 6	Analytic Trigonometry	6.1-6.5
Chapter 7	Additional Topics in Trigonometry	7.1. 7.2, 7.5
Chapter 3	Polynomial Functions	3.3, 3.4
Chapter 10	Sequences and Induction	10.1-10.5
	Daily Assignments

Course Objectives: Our goal is to obtain a useful mastery of algebraic/trigonometric concepts and methods basic to further work in mathematics and areas of application such as business, nursing and the sciences. To enhance your ability to formulate and solve applied problems, to interpret graphs and functions and to use them effectively so you may enjoy the triumph of discovery that comes from solving a problem by your own means. To this end we will learn some new techniques, definitions, and algorithms which we apply to interpreting phenomena. Using a suitable mathematical model of your choosing we then analyze and draw valid conclusions. My goal is to help you learn how to think about functions and mathematical models so you can do well in this course and in your subsequent studies.

Policies:

1. Attendance is expected unless extreme circumstances warrant otherwise. There are no make-up tests. See me (or e-mail) in advance if possible if you cannot make a test, or as soon as possible after missing a test if your absence may qualify as excusable. In general the final exam will serve as the make-up.
2. Calculators may not be shared during tests.
3. Academic dishonesty is not tolerated. According to the UNCW Academic Honor Code (See Section V of you Student Handbook), anyone who knows of a violation of the Code, including giving or receiving information, is expected to report the violation to the course instructor. Please note that in this course, working together on homework is not a violation of the Honor Code. You are encouraged to discuss and compare work –but not to copy someone else’s work.

Graded Work: There will be 3 one-hour tests during the semester, each counting 25%. There will be a short daily quiz or homework collected in class most days. The lowest 3 quiz/homework grades will be dropped (this includes up to 3 zero grades for missed quizzes/homework); the remaining quiz/homework grades will be averaged and the result counted as a one-hour test (25% of your grade in the course). The final examination (a comprehensive exam) will replace your lowest test grade but not your quiz/homework average. In this manner the final counts for everyone but may greatly improve your grade if you happen to have had a bad test day.

Grading Scale:

When the distribution of course grades suggests that a borderline grade might be raised to the next higher level, I consider such factors as attendance and improvement.

Important Dates:

Last day for a "W"	Wednesday, February 17.
Test #1	Thursday, February 4.
Test #2	Tuesday, March 2.
Test #3	Thursday, April 15.
Final -03	Wednesday, May 5, 1130AM - 2:30PM
Final -04	Monday, May 3, 1130AM - 2:30PM

Students with Disabilities: If you have a disability and need reasonable accommodation in this course, you should inform the instructor of this fact in writing within the first week of class or as soon as possible. If you have not already done so, you must register with the Office of Disability Services in Westside Hall (extension 3746) and obtain a copy of your Accommodation Letter. You should then meet with your instructor to make mutually agreeable arrangements based on the recommendations of the Accommodation Letter.

Study Strategies:

1. Use your Study Guide. It has a summary for each section of the text and answers for the odd-numbered problems.
2. Do some mathematics almost every day. You should plan on at least 6 hours of study time outside class per week. Read over your course notes and fill in gaps soon after class so your notes will be useful in later study.
3. Read the text and study guide with pencil and paper beside you, and use them. Understanding mathematics can’t be done just by watching a lecture or skimming the book.
4. It’s not enough to just do the homework. Ask yourself whether you could do other problems. Test yourself by recalling definitions and by doing additional problems.
5. In class, if you have a question, ask. It is likely that others have the same question. As you study make notes of concepts you don’t understand so you can ask in class or see me. For short questions, e-mail is a good choice.
6. If you need help, see me or visit the Math Lab, BR 101. Don’t let yourself fall behind.
7. Look back: how did I solve this problem, what can be learned from the mistake, or what other strategy could also have been effective in solving this problem?
8. Utilize WEB resources: Essential Trigonometry, Math Links

by Jack Tompkins