Good practices
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 Working Group:Science through digital learningCountry:PolandLanguages:English, PolishAge of students (target group/s):13-14, 15-18Links, resources:http://www.edugis.pl/en/for-teac...http://www.edugis.pl/en/for-teac... Contact person information:UNEP/GRID-Warsaw Centre This email address is being protected from spambots. You need JavaScript enabled to view it. The project based on professional experience exchange (meetings, online communication) between Polish and Norwegian educators as use of modern geotechnologies in schools in Norway is widely implemented. Thus, in the frames of the project the EduGIS Working Group was set up. It consisted of teachers, methodological consultants, experts in the field of science teaching, representatives of the Ministry of Education as well as experts in the field of Geographic Information Systems (GIS) from Poland and Norway. On the other hand, Polish members of EduGIS WG played the role of national and regional ICT/GIS promoters to help other educators from all over Poland to acquire and develop ICT/GIS skills as well as use them in the classroom practice. By the end of the project more than 100 science educators (geography and biology teachers in particular) were trained by EduGIS WG members. In additional, EduGIS portal with e-learning module was developed. Finally, a guidebook “GIS at schools” was prepared. The guidebook consisted of ready-to-use lesson scenarios with all necessary educational materials (multimedia presentations, worksheets for students, etc.). It contained also the guidelines for geography, biology, nature teachers how to implement ICT/GIS technologies into school practice.Strong points and opportunities:• “Snow-ball” effect implemented for spreading projects effects (WG members training other teachers and methodological consultants who disseminate information on GIS/ICT use in education among their colleagues, etc.) • The guidebook in PL/ENG with ready-to-use scenarios based on geotechnologies use (map applications, satellite images, GIS software, spatial data, GPS devices, etc.) • Thematic scope of the lessons based on common, everyday life activities (analyses of flood risk, urban sprawl, biodiversity analyses during field trips, etc.) • Technology and tools introduced in the project – geotechnologies are widely used by professionals (scientists, engineers, experts, etc.) and this factor can make them interesting for students as well • Educational materials available online (download possible if whenever needed) • Free and open EduGIS knowledge base in PL/ENG containing links to (geo)resources/links (additional sources of information for educators and students as well as inspiration for teachers who would like to develop their own lesson scenarios)Limitations:• Teachers need to acquire new knowledge and skills to use GIS in the classroom (for instance by taking part in trainings, workshops, e-learning courses) • More time is needed for beginning educators to introduce new software, tools and teaching methods based on geoinformation in the classroom (ordinary lessons can be too short) • Some technical conditions need to be satisfied (good Internet connection, fast computers) to effectively implement GIS in education • Educational materials developed in the project (for instance EduGIS base knowledge containing information on new GIS software and applications) need to be constantly kept up to date (not finished after EduGIS Academy finalized them)Added value with regards to the 3 topics of the MASS project:WG1 practical examples of ICT/GI tools in science education (GIS at school guidebook); source of inspiration for educational activities and projects (in junior high schools in particular); students can learn how to use professional geotools and applications to solve interdisciplinary problems WG2 use of geoinformation during lessons supports individual development of new skills and knowledge among students as they are focused on formulating conclusions based on available materials, information and data (from the Internet, by means of GIS applications, etc.) WG3 visualization of geographical information on digital maps, 3D models as well as practical tasks such as gathering data with GPS devices give a chance to awaken students’ interest and cognitive activities. GIS tools can support students in looking at the same problem taking different perspectives into account – analyze and formulate conclusions (new way of arousing interest in science education).Any prerequisites needed:• Fast Internet connection • Adequate technical resources (computers, GPS devices, etc.) | ||
Teaching materials
MASS project intends to identify, analyze, evaluate and disseminate practical tools and methods in teaching science which will effectively lead to arise students' motivation and acquire higher level of basic skills in science. We will explore what happens in science lessons at schools and increase the knowledge of good practice in teaching science in three research areas: Science for Digital Learners, Early Inquiry and Low achievers in Science (See more: Main topics).
Main project activities include:
1. Identification of the national examples of good practices
The initial phase of the project is to analyze the strengths, weaknesses and potential in the particular area of science education method in each partner country. It will include identification of good practices on raising students motivation for science on the national level. Examples identified will be collected in the online database.
See more: Good practices repository
2. Development of pilot teaching materials and testing phase
Findings from the research phase of the project will form the ground for development of the pilot version of educational materials in each Working Group.
Piloting stage of the project, with the involvement of target group, will raise the quality and exploitability of the products.
3. Development of the final version of teaching materials
Final version of educational products will be developed after summing up the piloting phase. They will be available in each partner language. The final project results will bring a change at the classroom level. Teachers will be aware of the key factor for motivation of their students to learn science. They will use a wide range of methods effectively and appropriately to the learning needs and preferences of their students. More teachers will be confident and successful in use such of methods. They will make teaching science more relevant and accessible to students.
Final products will be widely presented and disseminated during the Open Conference III in the middle of 2016.
Pilot materials
To help teachers to become empowered, skillful and self-confident, we work on:
- Study (recommendations)
- Examples of good practices
- Module of teacher training
- Hands-on lessons / tutorials
for Digital Learners, Early Inquiry and Low Achievers in Science.
If you want to help us to improve these materials by taking part in piloting, please contact leader of each Working Group:
Leonie de Vries (Digital Learners), e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Lenka Pachmanova (Early Inquiry), e mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Daiga Kalnina (Low Achievers), e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
or the MASS project partner in your country:
Czech Republic, TEREZA Educational Center
Lenka Pachmanova e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Cyprus, Cyprus Center for Environmental Research and Education (CY.C.E.R.E.)
Chrisis Kleovoulou, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Estonia, Estonian Physical Society
Kaido Reivelt, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Germany, University of Cologne Geographical Institute
Astrid Hensel, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Greece, National and Kapodistrian University of Athens
Thalia Mavrakou, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Latvia, Children's Environmental School
Inese Liepina, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Netherlands, SME Advies
Bregje van den Brand, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Poland, UNEP/GRID-Warsaw Centre
Elżbieta Wołoszyńska-Wiśniewska, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.