Calculus I (Special Section for Life Sciences Major) Spring 2007

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Calculus I (Special Section for Life Sciences Major)
Spring 2007
Course: Mac 2311, CRN 10616
Instructor: Dr. M. Rahman
Office: Bldg. 14/ Room 2718
Class Time : 10:00-11:40am MW
Bldg. 10/Rm. 1343
Office hour: 12:00-1:00pm MW/Appointment
Textbook: Calculus for Life Sciences,
Greenwell, Ritchey, and Lial, Addison-Wesley.
e-mail: mrahman@unf.edu
Web: http://www.unf.edu/~mrahman
Prerequisites: Pre-calculus or College Algebra and Trigonometry.
Credit hours: 4
Tentative Schedule:
Chapter 2. Exponential, Logarithmic,
and Trigonometric Functions
§ 2.1-2.3; Review
Chapter 3. The Derivative
§ 3.1-3.5
Chapter 4. Calculating the Derivative
§ 4.1-4.6
Chapter 5. Graphs and the Derivative
§ 5.1-5.4
Chapter 6. Applications of the
Derivative
§ 6.1-6.4
Chapter 7. Integration
§ 7.1-7.6
Grade Allocation:
2 Exams :
40 %
Final Exam: 30 %
90 to 100 %A
The “  `` will be included only to improve
your grades
80 to 89 % B
Homework + Lab + Quiz- 30%
70 to 79 % C
60 to 69 % D
Below 60 % F
Important Deadlines:
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Last day to withdraw ( with 25% refund)– February 2nd
Last day to withdraw (no refund)– March 26th
Holidays (no classes or office hours) – MLK Jr. Day- Jan. 15th, Spring break- March 19-24th.
Exam 1: February 21st, 2007(Wednesday)
Exam 2: April 11th, 2007(Wednesday)
Final Exam is Wednesday, May, 02, 9:00-10:50am.
Technology: I will be using the TI-83.You are free to use a TI /Casio CFX-9850GB PLUS graphing
calculator, however it is your responsibility to learn how to use it. Class time will be spent on how to graph,
plot points, find regression curves, etc. only for the TI-83. I highly recommend using the same calculator as
I will be using this semester. Calculators with QWERTY keyboards or those that do symbolic algebra such
as the TI-89, or the Casio FX2 or 9970G cannot be used in class or during an exam. We will demonstrate
interesting applications in calculus and biology using the computer algebra system MAPLE 10. MAPLE
can be accessed from PCs at the ITS computing sites on campus and mathematics department computer
lab. Meeting time, day and location of the computer lab session will be announced in the class.
Attendance: is required; parts of this class may be in a cooperative learning format. You will be assigned
group work in and out of class. Repeated absences (more than 4 unexcused) will result in lowering your
grade in the course. Students absent for university sponsored events or must make arrangements for making
up the work they will miss before they are absent.
Homework: is required. Selected problems from your textbook will be assigned and graded. All homework
must be written on
8 1  11 paper. Write on one side of the paper. Staple the pages in the upper left
2
corner. In addition, there will be laboratory projects and occasional group projects assigned. No late
homework or projects will be accepted without a valid reason.
Quizzes: Quizzes may be either announced or unannounced, and are given at the discretion of the
instructor. Quizzes frequently reflect material that has recently been discussed in the
class.
NO MAKE-UP QUIZZES unless in case of sickness or accident - medical certificate required.
Disability Resource Center: If you believe that you have a disability requiring an accommodation, please
contact “ Disability Resources Center” in Bldg. 10-Room 1201.
Disclaimer: The instructor reserves the right to amend this syllabus at any time. Changes will be
announced in class. It is the responsibility of the student to be aware of any changes.
General Education Outcomes:
MAC 2311 is designed to satisfy the following criteria from the Central Student Outcomes of General
Education:
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II D. 1. Students should be able to demonstrate general knowledge of the breadth, power, and
development of major areas of mathematics.
Calculus I introduces the concept of limit. This concept is used to define two important sets of
functions: continuous functions and differentiable functions. These functions are then used to create
mathematical models of real-world problems. We reach this goal by devoting most of the course to
limits, continuity, and differentiation. Course lectures cover limits of algebraic and transcendental
functions, optimization problems, and related-rates problems. These lectures also include the concepts
needed to understand the topics, the skills needed to apply the concepts, and a discussion of the scope
of these concepts.
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II. D. 2. Students should be able to demonstrate proficiency in solving problems using
mathematical concepts and quantitative reasoning.
We reach this goal by evaluating limits, translating word-problems into mathematical models, and
calculating derivatives. The acquired techniques will be applied to graph functions, solve optimization
problems, and solve related-rates problems.
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