Origami Planes: Difference between revisions
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{{Rinfo | {{Rinfo | ||
|title=Flying paper planes | |title=Flying paper planes | ||
|tagline= | |tagline=Very visual and interactive and simple to understand | ||
|image=Flight.jpg | |image=Flight.jpg | ||
|topic=Visualisation | |topic=Visualisation | ||
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|resourcenumber= M0027 | |resourcenumber= M0027 | ||
|age= Age group 5-9 | |age= Age group 5-9 | ||
|content= Geogebra has been used to produce an animated tutorial of an origami paper aeroplane). Once the plane has been made, experiments with throwing the plane show that it does not fly in a parabolic curve, as a ball would. An interactive geogebra spreadsheet | |content= Geogebra has been used to produce an animated tutorial of an origami paper aeroplane). Once the plane has been made, experiments with throwing the plane show that it does not fly in a parabolic curve, as a ball would. An interactive geogebra spreadsheet shows how a ball would fall. Another geogebra spreadsheet demonstrates the flight trajectory of the plane. I have also produced a word document describing very simply, how the plane flies. | ||
|related resources=This activity was a result of the a[[GeoGebra STEM Exploration]] which asked students to develop 'real world' GeoGebra mathematical modeling applications which reach out to a wide range of users both students and teachers | |||
|related resources= | |||
|other= | |other= | ||
|final=yes | |final=yes | ||
|licence= | |licence= | ||
|format= wiki page with downloadable .doc version | |format= wiki page with downloadable .doc version | ||
|resources= Here are two GeoGebra activities produced by students which can be used to further stimulate new students: | |resources= Here are two simple to use GeoGebra activities produced by the students which can be used to both understand flight and further stimulate new students: | ||
*[[file:Origami.ggb]] | *[[file:Origami.ggb]] | ||
*[[file:Plane.ggb]] | *[[file:Plane.ggb]] | ||
Revision as of 14:56, 25 September 2012
Lesson idea. Geogebra has been used to produce an animated tutorial of an origami paper aeroplane). Once the plane has been made, experiments with throwing the plane show that it does not fly in a parabolic curve, as a ball would. An interactive geogebra spreadsheet shows how a ball would fall. Another geogebra spreadsheet demonstrates the flight trajectory of the plane. I have also produced a word document describing very simply, how the plane flies.
Teaching approach. This lesson features a ‘real life’ example for students to explore using visualisation(ta) via GeoGebra. The focus on ‘real life’ increases student motivation.
The activity engages pupils in group talk(ta), mathematical thinking(ta) and vocabulary(ta). This open ended(ta) task encourages higher order(ta) thinking, and encourages whole class(ta) discussion(ta)/questioning(ta) and inquiry(ta) projects. (edit)
| Resource details | |
| Title | Flying paper planes |
| Topic | |
| Teaching approach | |
| Learning Objectives | |
| Format / structure | wiki page with downloadable .doc version |
| Subject | |
| Age of students / grade | |
| Table of contents | |
| Additional Resources/material needed | |
| Useful information | |
| Related ORBIT Wiki Resources | This activity was a result of the aGeoGebra STEM Exploration which asked students to develop 'real world' GeoGebra mathematical modeling applications which reach out to a wide range of users both students and teachers |
| Other (e.g. time frame) | |
| Files and resources to view and download | Here are two simple to use GeoGebra activities produced by the students which can be used to both understand flight and further stimulate new students: |
| Acknowledgement | |
| License | |
