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Full Description
The volume presents a collection of articles on the use of 3D printing technology in mathematics education and in mathematics teacher training. It contains both basic research-oriented contributions as well as reflected descriptions of concrete developments for teaching. The authors of this compilation share a positive attitude towards the possibilities that the use of 3D printing technology (understood as an interplay of software and hardware) can unfold for mathematics education, but critically evaluate from a mathematics education research perspective when, where and how an application can enable an added value for the learning of a mathematical content.
Contents
3D Printing in Mathematics Education—A Brief Introduction.- 3D Transformations for Architectural Models as a Tool for Mathematical Learning.- DiASper - Increasing the skills on occupationally relevant digital technologies among young people in Southern Denmark and the federal state of Schleswig-Holstein (Northern Germany).- Vignettes of Research on the Promise of Mathematical Making in Teacher Preparation.- Plane tessalation.- The Platonic solids.- Doing Mathematics with 3D Pens: Five Years of Research on 3D Printing Integration in Mathematics Classrooms.- Possibilities for STEAM Teachers using 3D modelling and 3D printing.- "I cannot simply insert any number there. That does not work" - A case study on the insertion aspect of variables.- Coding in the context of 3D printing..- Modelling and 3D-printing architectural models - A way to develop STEAM projects for mathematics classrooms.- Interfaces in Learning Mathematics Using 3D Printing Technology.- Mathematical Drawing Instruments and 3D Printing - (Re)designing and Using Pantographs and Integraphs in the Classroom.- 3D-Printing in Calculus Education—Concrete Ideas for the Hands-on Learning of Derivatives and Integral.- Maistaeder.
