Exploring differences in primary students’ geometry learning outcomes in two technology-enhanced environments: dynamic geometry and 3D printing

Baccaglini-Frank A(2019)Dragging, instrumented abduction and evidence, in processes of conjecture generation in a dynamic geometry environment ZDM: The International Journal of Mathematics Education 51 779-791

Battista MT(2008)Development of the shape makers geometry microworld Research on Technology and the Teaching and Learning of Mathematics 2 131-156

Bokhove C(2012)Effects of a digital intervention on the development of algebraic expertise Computers & Education 58 197-208

Drijvers P(2015)The role of 2D and 3D mental rotation in mathematics for young children: what is it? Why does it matter? And what can we do about it? ZDM: The International Journal of Mathematics Education 47 331-343

Bruce CD(2006)Developing the 3DMath dynamic geometry software: theoretical perspectives on design International Journal for Technology in Mathematics Education 13 168-174

Hawes Z(1999)Young children’s concepts of shape Journal for Research in Mathematics Education 30 192-212

Christou C(2008)Gesturing makes learning last Cognition 106 1047-1058

Jones K(2005)Les conditions cognitives de l’apprentissage de la géométrie: Développement de la visualisation, différenciation des raisonnements et coordination de leurs fonctionnements [Cognitive conditions of the geometric learning: developing visualisation, distinguishing various kinds of reasoning and co-ordinating their running] Annales de Didactique et de Sciences Cognitives 10 5-53

Mousoulides N(2006)“If you can turn a rectangle into a square, you can turn a square into a rectangle...” Young students experience the dragging tool International Journal of Computers for Mathematical Learning 11 271-299

Pittalis M(2015)First-graders’ spatial-mathematical reasoning about plane and solid shapes and their representations ZDM: The International Journal of Mathematics Education 47 363-375

Baccaglini-Frank A(2019)Dragging, instrumented abduction and evidence, in processes of conjecture generation in a dynamic geometry environment ZDM: The International Journal of Mathematics Education 51 779-791

Battista MT(2008)Development of the shape makers geometry microworld Research on Technology and the Teaching and Learning of Mathematics 2 131-156

Bokhove C(2012)Effects of a digital intervention on the development of algebraic expertise Computers & Education 58 197-208

Drijvers P(2015)The role of 2D and 3D mental rotation in mathematics for young children: what is it? Why does it matter? And what can we do about it? ZDM: The International Journal of Mathematics Education 47 331-343

Bruce CD(2006)Developing the 3DMath dynamic geometry software: theoretical perspectives on design International Journal for Technology in Mathematics Education 13 168-174

Hawes Z(1999)Young children’s concepts of shape Journal for Research in Mathematics Education 30 192-212

Christou C(2008)Gesturing makes learning last Cognition 106 1047-1058

Jones K(2005)Les conditions cognitives de l’apprentissage de la géométrie: Développement de la visualisation, différenciation des raisonnements et coordination de leurs fonctionnements [Cognitive conditions of the geometric learning: developing visualisation, distinguishing various kinds of reasoning and co-ordinating their running] Annales de Didactique et de Sciences Cognitives 10 5-53

Mousoulides N(2006)“If you can turn a rectangle into a square, you can turn a square into a rectangle...” Young students experience the dragging tool International Journal of Computers for Mathematical Learning 11 271-299

Pittalis M(2015)First-graders’ spatial-mathematical reasoning about plane and solid shapes and their representations ZDM: The International Journal of Mathematics Education 47 363-375