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Fostering Children's Mathematical Power
An Investigative Approach To K-8 Mathematics Instruction
Arthur J. Baroody, Ronald T. Coslick
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eBook - ePub
Fostering Children's Mathematical Power
An Investigative Approach To K-8 Mathematics Instruction
Arthur J. Baroody, Ronald T. Coslick
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Teachers have the responsibility of helping all of their students construct the disposition and knowledge needed to live successfully in a complex and rapidly changing world. To meet the challenges of the 21st century, students will especially need mathematical power: a positive disposition toward mathematics (curiosity and self confidence), facility with the processes of mathematical inquiry (problem solving, reasoning and communicating), and well connected mathematical knowledge (an understanding of mathematical concepts, procedures and formulas). This guide seeks to help teachers achieve the capability to foster children's mathematical power - the ability to excite them about mathematics, help them see that it makes sense, and enable them to harness its might for solving everyday and extraordinary problems. The investigative approach attempts to foster mathematical power by making mathematics instruction process-based, understandable or relevant to the everyday life of students. Past efforts to reform mathematics instruction have focused on only one or two of these aims, whereas the investigative approach accomplishes all three. By teaching content in a purposeful context, an inquiry-based fashion, and a meaningful manner, this approach promotes chilren's mathematical learning in an interesting, thought-provoking and comprehensible way. This teaching guide is designed to help teachers appreciate the need for the investigative approach and to provide practical advice on how to make this approach happen in the classroom. It not only dispenses information, but also serves as a catalyst for exploring, conjecturing about, discussing and contemplating the teaching and learning of mathematics.
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1 | Fostering Mathematical Power: The Need for Purposeful, I Inquiry-Based, and Meaningful Instruction |
☞ In writing, answer the following question: Why do we study mathematics?
✐The Why do we study mathematics? question can serve as the basis for a useful writing exercise. In addition to practicing language arts skills, such an exercise can provide teachers insight into their students’ view of the importance of mathematics and their reasons for studying it. Some children may think of mathematics as a tool for solving problems or for accomplishing everyday tasks. Others may see learning mathematics as a way of getting a grade. Yet others may see no purpose in studying it. The student essays could provide a basis for a class discussion, a bulletin board (as shown above), or both.
This Chapter
On the second day of class, Mr. Yant underscored the importance of mathematics by explaining, “Education is a journey in which you can acquire the tools to control more and more of your life. Mathematics is one of those tools. This tool becomes more and more useful by building an ever larger repertoire of concepts and strategies. This construction of mathematical knowledge occurs gradually through curiosity, desire, practice, and perseverance. After all, one does not become an accomplished athlete, musician, or artist overnight either.” Mr. Yant concluded by inviting his students to turn up their mathematical power. His students liked the idea of sharing in the power of mathematics.
Mathematical power implies the capacity to apply mathematical knowledge to new or unfamiliar tasks. This requires:
- a positive disposition to learn and use mathematics (e.g., the self confidence and willingness to seek, evaluate, and apply quantitative and spatial information to solve problems and make decisions);
- the ability to engage in the processes of mathematical inquiry (to explore, conjecture, reason logically, solve challenging problems, and communicate about and through mathematics); and
- a deep understanding of mathematics (mathematical ideas that are well connected to other mathematical content, other subject areas, and everyday life).
Elementary-level instruction is crucial for laying a foundation for mathematical power. Experiences in these early grades shape and, in many cases, forever fix a child’s disposition toward learning and using mathematics. Early educational experiences mold and often cement habits of mathematical thinking. K-8 instruction can also help children construct a fundamental understanding of mathematical ideas needed to tackle more advanced mathematics and everyday tasks. Whether or not instruction fosters mathematical power depends on what mathematics is taught and, perhaps more importantly, on how mathematics is taught. Unfortunately, traditional instruction all too often leaves children mathematically powerless (e.g., Trafton & Shulte, 1989).
Along with chapters 0, 2, and 3, this chapter provides a general framework for the rest of the book. We examine different ways of thinking about mathematics education (Unit 1•1) and discuss a new way of teaching mathematics—an approach that can foster mathematical power (Unit 1•2). The chapter expands on the discussion of fostering a positive disposition toward mathematics begun in chapter 0. Chapter 2 will consider further the importance of focusing on the processes of mathematical inquiry such as problem solving; chapter 3, the importance of focusing on understanding. Chapters 4 through 16 will examine how the general framework can be applied to teaching specific content areas.
What the Nctm Standards Say
Founded in 1920, the National Council of Teachers of Mathematics (NCTM) is a professional association of teachers, administrators, teacher educators, and researchers dedicated to improving mathematics teaching and learning. A summary of the changes in content and emphasis suggested by NCTM (1989) are listed on pages 1–3 and 1–4.
1•1 Different Views of Mathematics Education
Summary of Changes in Content and Emphasis†
K-4 Mathematics
Increased Attention | Decreased Attention |
Number
| Number
|
Operations and Computation
| Operations and Computation
|
Geometrv and Measurement
| Geometrv and Measurement
|
Probability and Statistics
| |
Patterns and Relationships
| |
Problem Solving
| Problem Solving
|
Instructional Practices
| Instructional Practices
|
† Reprinted from pages 20–21 and 70–73 of the Curriculum and Evaluations for School Mathematics, © 1989 by the NCTM, with the permission of the National Council of Teachers of Mathematics.
5–8 Mathematics
Increased Attention | Decreased Attention |
Problem Solving. Reasoning, and Communicating
| Problem Solving. Reasoning, and Communicating
|
Connections
| Connections
|
Number /Operations /Computation
| Number/Operations/Computation
|
Algebra. Patterns, and Functions
| Algebra. Patterns, and Functions
|
Statistics and Probability
| Statistics and Probability
|
Geometrv and Measurement
| Geometrv and Measurement
|
Instructional Practices
|