Abstract
In mathematics education, technology offers many opportunities to enrich curricular contents. Plane symmetries is a topic often skipped by primary teachers. However, it is important and may be worked in attractive ways in dynamic geometry software environments. In any regular classroom there are students with different levels of mathematical attainment, some needing easy tasks while others, particularly mathematically-gifted students, need challenging problems. We present a teaching unit for plane symmetries, adequate for upper primary school grades, implemented in a fully interactive electronic book, with most activities solved in GeoGebra apps. The book allows student to choose which itinerary to follow and attention is paid to different levels of students’ mathematical attainment. The research objective of the paper is to make a networked analysis of the structure and contents of the teaching unit based on the Van Hiele levels of mathematical reasoning and the levels of cognitive demand in mathematical problem solving. The analysis shows the interest of networking both theories, the suitability of the teaching unit, as the Van Hiele levels and the cognitive demand of the activities increases, and its usefulness to fit the needs of each student, from low attainers to mathematically-gifted students.
Highlights
Most activities in the teaching unit we present are adequate for average students, but it includes activities that are aimed to provide a deeper knowledge of symmetries to m-gifted students
In this paper we present the results of a mathematics education research aimed to design a teaching unit for plane symmetries, based on a dynamic geometry software (DGS) environment, which pays attention to the diversity of students’ teaching needs, in particular of m-gifted students
After having analyzed a representative sample of specific activities of the e-book, we offer a global view of the characteristics of the whole teaching unit from the mathematical and cognitive points of view
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. The research objective of the paper is to make a networked analysis of the structure and contents of the e-book based on the theoretical models of the Van Hiele levels of mathematical reasoning and the levels of cognitive demand in mathematics problem solving, to verify the adequacy of the teaching unit for the mentioned grades and average and m-gifted students. The results of this research add information to current knowledge by mathematics education researchers on a successful networked use of the Van Hiele levels and the levels of cognitive demand, and provide information to mathematics teachers on the teaching to and learning by m-gifted students of plane symmetries in the technological environment of an e-book with DGS, as an example of a teaching methodology good for virtual learning
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