Book contents
- Frontmatter
- Introduction
- Contents
- History and Context
- Interdisciplinary and Interdepartmental Programs
- Quantitative Literacy Courses
- Contribution of a First Year Mathematics Course to Quantitative Literacy
- Increasing the Relevance to and Engagement of Students in a Quantitative Literacy Course
- Quantitative Reasoning: An Interdisciplinary, Technology Infused Approach
- General Education Mathematics: A Problem Solving Approach
- Quantitative Reasoning and Informed Citizenship: A Relevant Hands-on Course
- A QL Program at a Large Public University
- Quantitative Reasoning at Wellesley College
- Advising, Assessment, and Other Issues
- About the Editor
Quantitative Reasoning: An Interdisciplinary, Technology Infused Approach
from Quantitative Literacy Courses
- Frontmatter
- Introduction
- Contents
- History and Context
- Interdisciplinary and Interdepartmental Programs
- Quantitative Literacy Courses
- Contribution of a First Year Mathematics Course to Quantitative Literacy
- Increasing the Relevance to and Engagement of Students in a Quantitative Literacy Course
- Quantitative Reasoning: An Interdisciplinary, Technology Infused Approach
- General Education Mathematics: A Problem Solving Approach
- Quantitative Reasoning and Informed Citizenship: A Relevant Hands-on Course
- A QL Program at a Large Public University
- Quantitative Reasoning at Wellesley College
- Advising, Assessment, and Other Issues
- About the Editor
Summary
The Quantitative Reasoning course at DePaul University grew out of a major reexamination of the general education program for undergraduates in 1995–96. Like many universities in the 1990s, DePaul University wished to strengthen the mathematics skills of its graduates and was willing to add additional mathematics requirements for its students. The question that the faculty had to address was, what mathematical skills should an undergraduate who is not majoring in Mathematics, Science, or Business have?
Universities across the country came up with a variety of solutions. A simple and sometimes adequate approach is to require college algebra and one or more semesters of pre-calculus. While this is the easiest approach to implement, the pre-calculus material may not be very useful if one does not go on to calculus. A perhaps more common approach is to require one course from a smorgasbord of math-related courses, for example, statistics, discrete math, calculus, logic, probability. These courses might possess a special catalog designation, often a “Q”; so all students might be required to take a Q course. There are many excellent programs of this nature across the country, some with exemplary mathematics-related courses. An advantage of such an approach is that specialists often teach the courses and bring both expertise and dynamism to the classroom, but a disadvantage is that all students not take the same course and the quantitative skills of a graduate will vary dramatically depending on which Q course he or she took.
- Type
- Chapter
- Information
- Current Practices in Quantitative Literacy , pp. 111 - 118Publisher: Mathematical Association of AmericaPrint publication year: 2006