GeoGebraSTEM exploration day: Difference between revisions

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NB: These are described in the above GeoGebra STEM Exploration document.  
NB: These are described in the above GeoGebra STEM Exploration document.  


Finally, the work above produced the following resources in the students' own words. It will be noted that the target user age ranges vary from 5 to 9 years of age...to upper 6th...plus teachers:
Finally, the work above produced the following resources (descriptions and GeoGebra activities) in the students' own words. It will be noted that the target user age ranges vary from 5 to 9 years of age...to upper 6th...plus teachers:
*[[Origami Planes|Flying paper planes]]
*[[Origami Planes|Flying paper planes]]
*[[SolarEclipse|Solar and Lunar Eclipse]]
*[[SolarEclipse|Solar and Lunar Eclipse]]
*[[Radioactive Decay and Carbon Dating]]
*[[Radioactive Decay and Carbon Dating]]
*[[Cubics|Cubic Equations and Their Roots]]
*[[Cubics|Cubic Equations and Their Roots]]
 
One student also produced an excellent document with links to GeoGebra files
*[[file:GeoGebra Software for Technology Enhanced Learning.docx]]
}}
}}
[[Category:CCITE]]
[[Category:CCITE]]

Revision as of 15:17, 15 January 2013


Students shot.jpg
Develop 'real world' GeoGebra mathematical modelling applications which reach out to a wide range of users both students and teachers

Lesson idea. GeoGebra is free, open-source software for mathematics, science and technology which has a rapidly-growing international user base. It is the STEM equivalent of “Office" style software for business. It has very many powerful features to support interactive use, which can pose a challenge for many to get started. Students are offered a unique opportunity to contribute to its adoption in UK education by developing 'real world' applications for use by students and teachers with a wide range of technical ability. In addition to responding to the technical challenge, students are tasked to demonstrate communication and collaboration skills including on-line interaction, team-working and face-to-face presentation.

Teaching approach. The half-term activity consists of 3 half-day workshops interspersed with home-working and on-line collaboration. Each workshop is part tutorial and help in GeoGebra, part development, presentation and feedback on their emerging work. The three half-day sessions become gradually less structured as students become more confident taking the initiative in developing their own work:

An initial GeoGebra tutorial session features ‘real life’ examples such as mathematical modelling(ta) and visualisation(ta) from photographs of patterns and structure in flowers and architecture; exercises such as “math aerobics” where students model algebraic functions kinaesthetically; and data analysis and exploration such as from astronomy (Kepler's 3rd law) and athletic performance (Usain Bolt’s 100m sprints). Realistic examples such as these, or from students’ previous work, are essential to get the ball rolling. Following this, the onus is very much on the student’s own initiative. The focus on ‘real life’ and student ownership of ideas and project development increases student motivation.

The activity engages pupils in group talk(ta), mathematical thinking(ta) and vocabulary(ta). This open ended(ta) task develops higher order(ta) reasoning(ta), and encourages whole class(ta) discussion(ta)/questioning(ta) and inquiry(ta) projects. (edit)

Resource details
Title GeoGebra STEM Exploration
Topic
Teaching approach
Learning Objectives

By the end of the activity students should be able to:

  • Develop 'real life' GeoGebra mathematical modeling applications of interest to themselves and other users
  • Understand and meet the requirements of users of varying technical confidence
  • Enhance their perception of the importance of teamwork and communication in technological activity
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
Other (e.g. time frame)
Files and resources to view and download

The first resource is an overall description of the activity, containing example activities and agendas:

Here are some resources which may be used to stimulate the students. “Math aerobics” and using GeoGebra to model Kepler’s laws and Usain Bolt’s sprints proved highly successful:

This is also available as a separate resource at Kepler' Third Law with GeoGebra

This is also available as a separate resource at Analysing Usain Bolt using GeoGebra

Here are five GeoGebra activities produced by students which can be used to further stimulate new students:

NB: These are described in the above GeoGebra STEM Exploration document.

Finally, the work above produced the following resources (descriptions and GeoGebra activities) in the students' own words. It will be noted that the target user age ranges vary from 5 to 9 years of age...to upper 6th...plus teachers:

One student also produced an excellent document with links to GeoGebra files

Acknowledgement

This was a joint project with students, teachers and four organisations: CCITE is the umbrella organisation providing a Cambridge Centre for Innovation in Technological Education. STEM Team East provide expert engagement with schools and the CREST award. The University of Cambridge Faculty of Education project ORBIT provide research expertise, teacher education expertise and the ORBIT database (Open Resource Bank for Interactive Teaching). GeoGebra is a world-wide community developing and using the GeoGebra software.

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