Intuition is often regarded as essential in the learning of geometry, but how such skills might be effectively developed in students remains an open question. This paper reviews the role and importance of geometrical intuition and suggests it involves the skills to create and manipulate geometrical figures in the mind, to see geometrical properties, to relate images to concepts and theorems in geometry, and decide where and how to start when solving problems in geometry. Based on these theoretical considerations, we illustrate a range of student tasks that we argue should contribute to developing students’ geometrical intuition
Ever since the very beginning of ancient philosophy, from Pythagoras to Plato, we know that the worl...
The dual nature of geometry, as a theoretical domain and an area of practical experience, presents m...
Students nowadays are relatively confident in directly applying geometrical theorems and theories. N...
This paper describes an exploratory study of the nature and role of geometrical intuition in the sol...
Are people just innately good at mathematics or not? My teaching experience suggests mathematical ab...
Approaches to the teaching and learning of a chosen topic in geometry can be located somewhere betwe...
Unpublished manuscriptGeometry is a school subject, but also and primarily geometry is a mathematica...
The dual nature of geometry, in that it is a theoretical domain and an area of practical experience,...
This report focuses on some aspects of the nature and role of visualisation and imagery in the teach...
The acquiring of formal, abstract mathematical concepts by students may be said to be one of the maj...
With the growth in interest in geometrical ideas it is important to be clear about the nature of geo...
University teachers often declare that using geometry, and " geometrical intuition ", would help stu...
Geometry learning at the junior secondary level should focus on the connection between students’ int...
The ICMI study conference on “Perspectives on the Teaching of Geometry for the 21st Century” took pl...
This chapter analyses a range of key issues in the teaching and learning of geometry. These include ...
Ever since the very beginning of ancient philosophy, from Pythagoras to Plato, we know that the worl...
The dual nature of geometry, as a theoretical domain and an area of practical experience, presents m...
Students nowadays are relatively confident in directly applying geometrical theorems and theories. N...
This paper describes an exploratory study of the nature and role of geometrical intuition in the sol...
Are people just innately good at mathematics or not? My teaching experience suggests mathematical ab...
Approaches to the teaching and learning of a chosen topic in geometry can be located somewhere betwe...
Unpublished manuscriptGeometry is a school subject, but also and primarily geometry is a mathematica...
The dual nature of geometry, in that it is a theoretical domain and an area of practical experience,...
This report focuses on some aspects of the nature and role of visualisation and imagery in the teach...
The acquiring of formal, abstract mathematical concepts by students may be said to be one of the maj...
With the growth in interest in geometrical ideas it is important to be clear about the nature of geo...
University teachers often declare that using geometry, and " geometrical intuition ", would help stu...
Geometry learning at the junior secondary level should focus on the connection between students’ int...
The ICMI study conference on “Perspectives on the Teaching of Geometry for the 21st Century” took pl...
This chapter analyses a range of key issues in the teaching and learning of geometry. These include ...
Ever since the very beginning of ancient philosophy, from Pythagoras to Plato, we know that the worl...
The dual nature of geometry, as a theoretical domain and an area of practical experience, presents m...
Students nowadays are relatively confident in directly applying geometrical theorems and theories. N...