MTH 103
Contemporary Mathematics Fall 2006
Instructor: Dr.
Archie W. Earl, Sr.
Office Location:B176 BMH phone:
823-9564 E-mail:
awearl@nsu.edu
Website for Faculty Information: www.coursecompass.com
http://awearlnsuedu.pageout.net/user/www/a/w/awearlnsuedu/DrEarlWebpageSpecial2.htm
Website for Accessing Online Assignments: www.coursecompass.com
Office Hours:
|
Monday |
Tuesday |
Wednesday |
Thursday |
Friday |
|
11-12, 1-2 |
9:30-11 |
9:30-11 |
|
11-12, 1-2 |
Prerequisite: Completion of MTH 101
with a minimum of “C”
Course Description: This is a
one-semester, liberal arts mathematics course that satisfies the minimum general
education mathematics requirement. The course emphasizes global, unifying ideas
in mathematics and stresses the connections between contemporary mathematics
and modern society. Topics are selected from elementary mathematics, logic,
probability and statistics, discrete systems, geometry, measurement, and
consumer applications.
Rationale
and General Course Objectives:
The purpose of this course is to first help students understand that
mathematics is a universal language. In other words, mathematics informs public
policy, underlies modern technology, plays an essential role in many
disciplines, and enchants the mind.
The second
goal of this class is to demonstrate how mathematics will prove to be an
engaging part of preparation for any career and most of all for informed
citizenship.
To accomplish these aforementioned
tasks, students will be engaged in meaningful experiences that will a) increase
the quantitative reasoning/ literacy needed for informed citizenship and in the
workplace, b) improve every student’s ability to communicate mathematical ideas
orally and in writing, and c) strengthen the analytical thinking abilities/
critical thinking skills that will be useful in other disciplines. Finally, it
is the intent of this course, to encourage students to develop positive
attitudes and perceptions about the study of mathematics.
*
Measurable student objectives are on file in the Department of Mathematics.
Required Text:
Blitzer, R. (2005). Thinking mathematically (3rd ed.).
New Jersey: Prentice Hall.
Additional Required Materials:
Scientific calculator
Notebook or folder
Course Requirements:
1. Each student
must obtain the appropriate textbook/materials and attend all lectures.
2. Each student
must complete homework assignments online.
3. An 80%
mastery level is required per homework set.
4. The student
should complete the homework assignment successfully before the in-class test.
5. Each student
must complete all assignments in a timely manner.
Instructions for Completing Web-based Homework Assignments:
1. Purchase
your textbook and Student Access Kit.
2. Write down
the Course ID number that will be provided by your instructor in-class.
3. Register
online at using the register button for
students and following the on-screen instructions.
4. Then follow
the step-by-step guide for logging in and beginning your homework in MyMathLab.
Be sure to download all plug-ins before you attempt your assignments.
Computer Technology Requirements:
1. Students must
have Internet access.
2. Students
must purchase a text that with the MyMathLab Student Access Kit or purchase a
code separately in the book store.
3. Students who
are completing on-line homework assignments from locations off-campus must use
computers that
· Have Windows 2000,XP, Macintosh 9.2, OS X Version
10.1, or 10.2 as an operating system.
· Have a minimum Internet connection speed of 28.8
kbps (kilobits per second) and either Microsoft Internet Explorer (Version 5.x
up to Version 6.0) or Netscape Navigator 7.0 as the browser.
· Have the following plug-ins downloaded: Adobe
Reader, Macromedia Flash, Macromedia Shockwave Player, Apple QuickTime, and
RealNetworks RealOne Player.
|
Date |
Section (s) |
Topic(s) |
WK |
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|
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Housekeeping |
1 |
|
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1.1,1.3 |
Reasoning in Numeric/ Conceptual ContextsIntroduction to problem Solving: Inductive and Deductive Reasoning |
|
|
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1.2 |
Estimation and Graphs |
|
|
|
|
Review/ Reinforce |
2 |
|
|
2.1 |
Basic Set Concepts |
|
|
|
2.2 |
Venn Diagrams and Subsets |
|
|
|
2.3, 2.4 |
Venn Diagrams and Set Operations |
3 |
|
|
2.5 |
Surveys |
|
|
|
|
Review/ Reinforce |
|
|
|
6.4 |
Ratio, Proportion, and Variation |
4 |
|
|
|
Review/ Reinforce |
|
|
|
|
Quantitative Reasoning Skills Check #1 |
|
|
|
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Test 1 |
|
|
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8.1 |
Percent |
5 |
|
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8.2, 8.3 |
Simple and Compound Interest |
|
|
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8.4 |
Installment Buying * |
|
|
|
8.5 |
Investing in Stocks, Bonds, and Mutual Funds* |
6 |
|
|
|
Test 2 |
|
|
|
9.1-9.3 |
Reasoning in
Geometric Contexts Measurement: Making Conversions Using Dimensional Analysis |
|
|
|
|
Review/ Reinforce |
7 |
|
|
10.1 |
Points, Lines, Planes, and Angles |
|
|
|
10.2 |
Triangles |
|
|
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10.3 |
Polygons, Quadrilaterals, and Perimeter |
8 |
|
|
|
Review/ Reinforce |
|
|
|
10.4 |
Area and Circumference |
|
|
|
10.5 |
Volume |
9 |
|
|
|
Review/ Reinforce |
|
|
|
|
Quantitative Reasoning Skills Check #2 |
|
|
|
|
Test 3 |
10 |
|
|
11.1-11.3 |
Reasoning in Data Representation and Chance Contexts The Fundamental Counting Principle; Permutations; Combinations |
11 |
|
|
11.4,11.5 |
Fundamentals of Probability |
|
|
|
11.6 |
Events involving Not and Or; Odds |
|
|
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11.7 |
Events involving And; Conditional Probability |
12 |
|
|
11.8 |
Expected Value |
|
|
|
|
Review/ Reinforce |
|
|
|
12.1 |
Sampling, Frequency Distributions, and Graphs |
13 |
|
|
12.2 |
Measures of Central Tendency |
|
|
|
12.3; 12.4 |
Measures of Dispersion; Applying the 68-95-99.7 Rule |
|
|
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12.5 |
Scatter Plots and Regression Lines |
14 |
|
|
|
Thanksgiving Break (Quantitative Reasoning Skills Check #3) |
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|
|
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Thanksgiving Break |
|
|
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Thanksgiving Break |
15 |
|
|
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Test 4 |
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|
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Final Exam Review |
|
*Optional
Academic Integrity Policies: Students are expected to attend all class sessions. Missing 20% or more of such sessions may result in an automatic failing grade. Further information regarding academic or academically related misconduct, and disciplinary procedures and sanctions regarding misconduct may be obtained by consulting the NSU Student Handbook. Also, individual professors may provide information regarding his or her particular class.
*Note: In accordance with section 504 of the 1973 Rehabilitation Act and the Americans with Disabilities Act (ADA) of 1990, we ask if you have a disability or think you have a disability, please make contact with the Supporting Students Through Disability Services (SSDS) Office in the Lyman Beecher Brooks Assistive Technology Lab in room 240 (2nd Floor) of the library. The coordinator for the program is Ms. Marian E. Shepherd and she can be reached at 757.823.8014.
Evaluation
Final grades will be
determined as follows:
A Minimum of 4 Tests: 40% 7
Online Homework Sets: 15%
Quantitative Reasoning
Skills Checks: 10% Additional
Course Work*: 15%
Final Exam:20%
* Additional course work may include projects, writing assignments, readings, quizzes, etc. that will be given at the instructor’s discretion.
FINAL EXAMINATION: Monday, December 5, 2005 (3:00 p.m. –5:30 p.m.)
Place: Gill’s Gymnasium
Grading Scale
|
94-100 A 90-93 A- 87-89 B+ 84-86 B 80-83 B- 77-79 C+ |
74-76 C 70-73 C- 67-69 D+ 64-66 D 60-63 D- BELOW 60 F |
Methods and Resources for enhancing student Success:
Although
the method of instruction for this course is lecturing, students should be
aware of the make resources available to them in order to enhance their chance
for success
· Multimedia
instruction with homework assignments
· Campus wide tutorial centers
· The Tutor Center for students who have their student
access code and Course ID (For information about The Tutor Center, call the
instructor line at 1-888-777-0463, 5 p.m. –12 a.m. EST Sun-Thurs)
Measurable Student
Objectives
At
the completion of this course, students should be able to:
1. Express a fraction as a percent.
2. Express a decimal as a percent.
3. Express a percent as a decimal.
4. Use the percent formula.
5. Solve applied problems involving percents.
6. Calculate simple interest.
7. Use the future value formula.
8. Use the simple interest formula on a
discounted loan.
9. Use compound interest formulas.
10. Calculate present value.
11. Understand and compute effective annual yield.
12. Identify and use inductive reasoning with an
emphasis on discovering patterns.
13. Identify and use deductive reasoning.
14. Use estimation techniques to arrive at an
approximate answer to a problem.
15. Apply estimation techniques to information
given by graphs.
16. Solve problems with numeric, algebraic,
geometric, conceptual, statistical, and chance contexts using the four-step
problem solving process.
17. Identify and use the appropriate symbols when
writing in set notation.
18. Determine a set’s cardinal number.
19. Identify equal and equivalent sets.
20. Use Venn Diagrams to visualize set
relationships with an emphasis on a survey’s results and answer questions about
the survey.
21. Perform operations with sets.
22. Evaluate an exponential expression.
23. Find ratios.
24. Solve problems using proportional reasoning.
25. Demonstrate quantitative literacy in the U.S.
Customary and metric systems of measurement.
26. Convert from one unit to another within the
same or different systems using dimensional analysis.
27. Use appropriate units for making measurements.
28. Read a calibrated scale or measurement tool
such as a ruler or protractor.
29. Determine measurements needed to solve a
problem.
30. Identify and use geometric concepts in making
linear, area, and volume measurements.
31. Solve measurement problems by using a formula,
proportional reasoning, or nonstandard unit.
32. Identify and use geometric properties and
relationships in both pure and real-world situations such as determining a
distance using the Pythagorean relationship.
33. Use the Fundamental Counting Principle the
number of possible outcomes in a given situation.
34. Evaluate factorial expressions.
35. Distinguish between permutation and
combination problems.
36. Solve problems using the permutations and
combinations formulas.
37. Compute and compare theoretical and empirical
probabilities.
38. Compute probabilities with the Fundamental
Counting Principle, permutations, and combinations.
39. Find the probability that an event will not
occur.
40. Compute probabilities of compound events.
41. Use and compute odds.
42. Compute conditional probabilities.
43. Compute expected values.
44. Identify trends and deceptions in visual
displays of data.
45. Organize and present data.
46. Select an appropriate sampling technique.
47. Calculate, compare, and select the best
measure of central tendency given a data set.
48. Determine the range and standard deviation for
a data set.
49. Recognize the characteristics of a normal
distribution.
50. Define the empirical rule within the context
of a real-world situation.
51. Make a scatter plot given a table of data
points.
52. Interpret information given a scatter plot.
53. Write the equation of the regression line.
54. Predict values for the dependent variable using
the regression line.