Developmental

• Math 372
• Math 372L
• Math 376
• Math 376L
• Math 380
• Math 380L
• Math 101
• Math 120
• Math 120L

College Transfer

• Math 4
• Math 5
• Math 15
• Math 25
• Math 30
• Math 45
• Math 50A
• Math 50B
• Math 50C
• Math 52
• Math 55

Course Proposals (Drafts)

Course Outlines

• Course Outline Home Page

Math 372L --- Math Lab for College Arithmetic

Click here to download Curriculum Committee document

Catalog Description

Instructional support for students in College Arithmetic (Math 372), given in a self-paced lab environment. Students receive one-on-one and small-group instruction designed to enhance success in Math 372. Course-specific work will be assigned.

Special notes or advisories: Students should be enrolled in Math 372.

Prerequisites

None

Describe representative skills without which the student would be highly unlikely to succeed:

None

Course Learning Outcomes

What should the student be able to do as a result of taking this course? State some of the objectives in terms of specific, measurable student accomplishments.

1. Read, write, and speak accurately about mathematical ideas and use correct mathematical notation.
2. Use technology to explore mathematical concepts and verify work. In particular, use computer-based assessment tools to gauge progress in mathematical topics currently under investigation in Math 372.
3. Use numerical representations to solve problems and communicate mathematics.
4. Solve common everyday problems that require arithmetic.

Course Content

• Themes: What themes, if any, are threaded throughout the learning experiences in this course?
  • Problem-solving.
  • Writing mathematics.
  • Technology.
  • Communication.
• Concepts: What concepts do students need to understand to demonstrate course outcomes?
  • The use of technology as a fundamental problem-solving tool.
  • The presentation of mathematical solutions in a logical coherent structure, including the use of fundamental writing skills, grammar, and punctuation.

• Issues: What primary issues or problems, if any, must students understand to achieve course outcomes.
  • The appropriate use of technology in the problem-solving process.
  • The connection between mathematics and the real world.
  • The role of the student in becoming a successful learner.
  • The recognition that the problem-solving skills learned in mathematics classes are applicable to related fields.
• Skills: What skills must students master to demonstrate course outcomes?
  1. Assess the plausibility of a solution to specific types of problems.
  2. Anticipate potential and predictable errors in homework and other assignments.
  3. Compare different algorithmic methods for their effectiveness and efficiency in solving problems.
  4. Solve specific mathematics problems by using textbooks from current mathematics courses.
  5. Solve specific mathematics problems by following examples from supplemental materials, such as self-paced workbooks, computer tutorials, class handouts, and calculator manuals.
  6. Solve specific mathematics problems by seeking instructor guidance as necessary.
  7. Fractions:
     • identify parts of a fraction
     • write fractions in lowest terms
     • add, subtract, multiply, and divide fractions
     • convert between mixed numbers and improper fractions
     • find Lowest Common Denominators
  8. Decimals
     • read and write decimals
     • add, subtract, multiply, and divide decimals
     • round decimals
     • convert fractions or mixed numbers to decimals
     • convert decimals to fractions or mixed numbers
  9. Percent
     • convert between fractions, mixed numbers, decimals, whole numbers, and percents
     • solve percent problems using proportion or equation-solving techniques

Representative Learning Activities

What will the students be doing (i.e., Listening to lectures, participating in discussions and/or group activities, attending a field trip, etc.)? Relate the activities directly to the Course Learning Outcomes.

• Participating in tutorials with instructor and peers.
• Working independently to improve math skills and study skills.
• Assessing math weaknesses and working to find remedies for them.
• Completing computer based assignments.

Assessment Tasks

How will the student show evidence of achieving the Course Learning Outcomes? Indicate which assessments (if any) are required for all sections.

• Representative assessment tasks:
• • Pre-test and post-test
• Required assessments for all sections - to include but not limited to:
• • Completion of course-specific online assignments.

Examples of Appropriate Texts or Other Readings

• Author: Lial, Salzman, Hestwood; Title: Basic College Mathematics 7th Edition; Date: 2006
• OPTIMATH online software guide.