3D geometric models in Geogebra

ZŠ a MŠ Nýřany

Students will model a 3D geometric shape in the mathematical application Geogebra. The resulting model then serves as an illustrative didactic tool in mathematics lessons.

Středně obtížný

Krátkodobý

10–14 let

Ověřeno Prusa týmem

Vhodné tiskárny: Prusa MINI / MINI+Prusa MK3/S/S+

1082

7374

aktualizováno 24. srpna 2022

Popis

PDF

Students will model a 3D geometric shape in the mathematical application Geogebra. The resulting model then serves as an illustrative didactic tool in mathematics lessons.

Zaměření cílové skupiny

The project is intended primarily for students of middle schools. The project can be used repeatedly (depending on the curriculum)

● 6th grade - cuboid, cube

● 7th class - prisms in general

● 8th grade - cylinder, sphere

● 9th grade - pyramid, cone

Potřebné znalosti a dovednosti

The teacher should be able to know the basics of the Geogebra software. To make the work easier, it would be advisable for students to try a simple planimetric construction with basic tools in the Geogebra environment in advance, but this is not a necessary.

Cíle projektu

The project complements the teaching of mathematics and also develops digital competences in mathematics lessons. Students get to know the Geogebra software and consolidate concepts from stereometrics during modeling, and modeling helps them improve their spatial imagination. They will also become more familiar with 3D printing and the preparation of models for printing.

Potřebné vybavení

computer with an internet connection, 3D printer

Časový harmonogram projektu

1 lesson – introduction of Geodebra software to the students (optional)

1 lesson –modeling of the geometric shapes and export to STL format

1 lesson – introduction of PrusaSlicer software and preparation of the models for 3D printing

printing time of one model is approximately 1 hour and 30 minutes depending on it’s height (layer 0,3 mm, infill 20%, model height approx. 6 cm)

Pracovní postup

Lesson 1 (optional) – Introduction to Geodebra software

opening the Geogebra Classic - https://www.geogebra.org/
introduction to the tools Pointer, Line, Polygon, Circle in the Geometry environment
a brief introduction to the object format (line width, padding)
introduction to the 3D graphics environment

Lesson 2 – 3D modeling

creation of the prism model according to the attached guide, including saving the .stl file
the teacher shares working procedures with the students in electronic form
students then work independently on their own models (prisms with different bases, pyramids with different bases, cylinders with different bases) according to procedures

objective variables:

students choose the model to work on by themselves
the teacher assigns the names of the models (e.g. regular triangular pyramid…)
teacher assigns the models in form of sketches
teaches assigns the meshes

Lesson 3 – introduction to PrusaSlicer software

familiarization with the preparation of the model for printing
- placing the model on the mat
- resizing
- trimming the bottom part
- custom slicing and its control
- G-code export