Book ChapterDOI
Mathematics and Cognition: Cognitive Processes Involved in Learning School Algebra
Carolyn Kieran
- pp 96-112
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TLDR
A discussion of what algebra is, how it has developed historically, and what demands it makes on the learner from an epistemological perspective can be found in this paper, along with a discussion of continuities and discontinuities of algebra with respect to arithmetic.Abstract:
School algebra usually begins in the eighth or ninth grade when students are 14 to 15 years of age. The teaching of equations, functions, and the manipulation of literal expressions and equations traditionally signals the start of algebra. But algebra can also be said to begin when students are taught to extract pertinent relations from problem situations and to express those relations using algebraic symbolism. Both of these conceptions of algebra carry with them strands of continuity and discontinuity with respect to the prior arithmetical learning of students. However, even the seeming continuities require a shift in interpretation from what was considered appropriate in arithmetic. This chapter begins with a discussion of what algebra is, how it has developed historically, and what demands it makes on the learner from an epistemological perspective. This discussion, which includes a description of the continuities and discontinuities of algebra with respect to arithmetic, forms the backdrop for the second part of the chapter, which presents research findings from several cognitive studies in the learning and teaching of algebra. It should be noted that much of the research cited in this chapter considers the current algebra curriculum as a given. Because recent advances in technology force us to reconsider this given, a section describing the algebra research that has been carried out in computer environments is also included. The chapter concludes with some suggestions for further research.read more
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MonographDOI
Handbook of research on the psychology of mathematics education: past, present and future
Ángel Gutiérrez,Paolo Boero +1 more
Abstract: This volume is a compilation of the research produced by the International Group for the Psychology of Mathematics Education (PME) since its creation, 30 years ago. It has been written to become an essential reference for Mathematics Education research in the coming years. The chapters offer summaries and synthesis of the research produced by the PME Group, presented to let the readers grasp the evolution of paradigms, questions, methodologies and most relevant research results during the last 30 years. They also include extensive lists of references. Beyond this, the chapters raise the main current research questions and suggest directions for future research. The handbook is divided into five sections devoted to the main research domains of interest to the PME Group. The first three sections summarize cognitively oriented research on learning and teaching specific content areas, transversal areas, and based on technology rich environments. The fourth section is devoted to the research on social, affective, cultural and cognitive aspects of Mathematics Education. Finally, the fifth section includes two chapters summarizing the PME research on teacher training and professional life of mathematics teachers. The volume is the result of the effort of 30 authors and 26 reviewers. Most of them are recognized leading PME researchers with great expertise on the topic of their chapter. This handbook shall be of interest to both experienced researchers and doctoral students needing detailed synthesis of the advances and future directions of research in Mathematics Education, and also to mathematics teacher trainers who need to have a comprehensive reference as background for their courses on Mathematics Education
Journal ArticleDOI
Rigor and Relevance: Enhancing High School Students’ Math Skills Through Career and Technical Education:
TL;DR: In this paper, the authors tested a model for enhancing mathematics instruction in five high school CTE programs (agriculture, auto technology, business and marketing, health, and information technology).
Journal ArticleDOI
The balance model: Hindrance or support for the solving of linear equations with one unknown
TL;DR: The use of concrete models for teaching students how to solve equations is often debated in scientific literature as mentioned in this paper, and the balance model has been used to teach the formal solving method, which involved performing the same operations on both sides of the equation using, notably, the balanced model.
Journal ArticleDOI
Word problems: a review of linguistic and numerical factors contributing to their difficulty.
Gabriella Daroczy,Magdalena Wolska,Walt Detmar Meurers,Hans-Christoph Nuerk,Hans-Christoph Nuerk +4 more
TL;DR: This review discusses the impact of each of these factors on WP difficulty and motivate the need for a high degree of control in stimuli design for experiments that manipulate WP difficulty for a given age group.
Journal ArticleDOI
Computer-Intensive Algebra and Students' Conceptual Knowledge of Functions.
TL;DR: The authors examined the effects of the Computer-Intensive Algebra (CIA) and traditional algebra curricula on students' understanding of the function concept and found that the CIA students achieved a better overall understanding of functions and were better at the components of modeling, interpreting, and translating.