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Type :article
Subject :Q Science (General)
ISSN :1865-7923
Main Author :Putra, Zetra Hainul
Additional Authors :Riyan Hidayat
Title :Geogebra integration in elementary initial teacher training: the case of 3-D shapes
Place of Production :Tanjung Malim
Publisher :Fakulti Sains dan Matematik
Year of Publication :2021
Notes :International Journal of Interactive Mobile Technologies
Corporate Name :Universiti Pendidikan Sultan Idris
HTTP Link :Click to view web link

Abstract : Universiti Pendidikan Sultan Idris
The integration of technology in learning is increasingly popular and inevitable, especially during the Covid-19 pandemic. In mathematics education, Geogebra has been used as a pedagogical tool in learning mathematics from elementary to university. The present study aims to explore first-year prospective elementary teachers' experience constructing 3-D shapes using GeoGebra. This study uses a case study method with 40 first-year prospective elementary teachers from an elementary initial teacher training from a public university in Riau, Indonesia. The participants worked in small groups and discussed some 3-D shapes through an online platform, and in the end, each participant reflected their attitudes towards the integration of GeoGebra in learning 3-D shapes. The findings show that prospective elementary teachers discussed six types of 3-D shapes; cube, rectangular prism, rectangular pyramid, cylinder, cone, and spheres. They prefer to discuss curved surfaces rather than flat surfaces of 3-D shapes. In addition, prospective elementary teachers have positive attitudes towards integrating GeoGebra in elementary initial teacher training. They believe that GeoGebra supports them to understand better the concepts of volume and surface area of 3-D shapes, facilitate students to understand the properties of a geometry object, and compare the object one made using hand drawing to using GeoGebra. Meanwhile, difficulty in using the tools to construct 3-D shapes in GeoGebra becomes a hinder to understand mathematics concepts and properties. The implication of this study is that there is a potential to integrate GeoGebra in mathematics learning in elementary teacher training. ? 2021. All Rights Reserved.

References

Açıkgül, K. (2022). Mathematics teachers' opinions about a GeoGebra-supported learning kit for teaching polygons. International Journal of Mathematical Education in Science and Technology, 53(9), 2482-2503. doi:10.1080/0020739X.2021.1895339

Addimando, L., Leder, D., & Zudini, V. (2021). Teaching and learning in the COVID-19 era: The experience of an italian primary school class. Turkish Online J.Educ.Technol, 20(1), 60-67. Retrieved from www.scopus.com

Aldalalah, O., Ababneh, Z. W. M., Bawaneh, A. K., & Alzubi, W. M. M. (2019). Effect of augmented reality and simulation on the achievement of mathematics and visual thinking among students. International Journal of Emerging Technologies in Learning, 14(18), 164-185. doi:10.3991/ijet.v14i18.10748

Alhalafawy, W. S., & Zaki, M. Z. T. (2019). The effect of mobile digital content applications based on gamification in the development of psychological well-being. International Journal of Interactive Mobile Technologies, 13(8), 107-123. doi:10.3991/ijim.v13i08.10725

Alkhateeb, M. A., & Al-Duwairi, A. M. (2019). The effect of using mobile applications (GeoGebra and sketchpad) on the students' achievement. International Electronic Journal of Mathematics Education, 14(3), 523-533. Retrieved from www.scopus.com

Bittinger, M. L., & Beecher, J. (2012). Developmental Mathematics: College Mathematics and Introductory Algebra, Retrieved from www.scopus.com

Borba, M. C., & Llinares, S. (2012). Online mathematics teacher education: Overview of an emergent field of research. ZDM - Mathematics Education, 44(6), 697-704. doi:10.1007/s11858-012-0457-3

Bozkurt, G., & Ruthven, K. (2017). Classroom-based professional expertise: A mathematics teacher’s practice with technology. Educational Studies in Mathematics, 94(3), 309-328. doi:10.1007/s10649-016-9732-5

Bray, A., & Tangney, B. (2017). Technology usage in mathematics education research – A systematic review of recent trends. Computers and Education, 114, 255-273. doi:10.1016/j.compedu.2017.07.004

Bulut, M., Akçakın, H. Ü., Kaya, G., & Akçakın, V. (2016). The effects of geogebra on third grade primary students’ academic achievement in fractions. Mathematics Education, 11(2), 327-335. doi:10.12973/iser.2016.2109a

Crowe, S., Cresswell, K., Robertson, A., Huby, G., Avery, A., & Sheikh, A. (2011). The case study approach. BMC Medical Research Methodology, 11 doi:10.1186/1471-2288-11-100

Dikovic, L. (2009). Implementing dynamic mathematics resources with geogebra at the college level. International Journal of Emerging Technologies in Learning, 4(3), 51-54. doi:10.3991/ijet.v4i3.784

Dockendorff, M., & Solar, H. (2018). ICT integration in mathematics initial teacher training and its impact on visualization: The case of GeoGebra. International Journal of Mathematical Education in Science and Technology, 49(1), 66-84. doi:10.1080/0020739X.2017.1341060

El Hage, I. (2021). Geogebra: Volume of sphere. Geogebra, Retrieved from www.scopus.com

Finger, G., Jamieson-Proctor, R., & Albion, P. (2010). Beyond pedagogical content knowledge: The importance of TPACK for informing preservice teacher education in australia doi:10.1007/978-3-642-15378-5_11 Retrieved from www.scopus.com

Guntur, M. I. S., & Setyaningrum, W. (2021). The effectiveness of augmented reality in learning vector to improve students’ spatial and problem-solving skills. International Journal of Interactive Mobile Technologies, 15(5), 159-173. doi:10.3991/ijim.v15i05.19037

Hall, J., & Chamblee, G. (2013). Teaching algebra and geometry with GeoGebra: Preparing pre-service teachers for middle Grades/Secondary mathematics classrooms. Computers in the Schools, 30(1-2), 12-29. doi:10.1080/07380569.2013.764276

Helsa, Y., & Kenedi, A. K. (2019). Edmodo-based blended learning media in learning mathematics. J.Teach.Learn.Elem.Educ, 2(2), 107-117. Retrieved from www.scopus.com

Hillmayr, D., Ziernwald, L., Reinhold, F., Hofer, S. I., & Reiss, K. M. (2020). The potential of digital tools to enhance mathematics and science learning in secondary schools: A context-specific meta-analysis. Computers and Education, 153 doi:10.1016/j.compedu.2020.103897

Horzum, T., & Unlu, M. (2017). Pre-service mathematics teachers’ view about GeoGebra and its use. Acta Didactica Napocensia, 10(3), 77-90. Retrieved from www.scopus.com

Jurakovi, L., Tatkovi, N., Radulovi, P., & Veki, M. (2020). Preschool teachers' attitudes to the use of information and communication technology in preschool institutions. Fundam.Appl.Res.Pract.Lead.Sci.Sch, 38(2), 66-72. Retrieved from www.scopus.com

Khalil, M., Farooq, R. A., Çakiroglu, E., Khalil, U., & Khan, D. M. (2018). The development of mathematical achievement in analytic geometry of grade-12 students through GeoGebra activities. Eurasia Journal of Mathematics, Science and Technology Education, 14(4), 1453-1463. doi:10.29333/ejmste/83681

Kuntze, S. (2006). Video technology in the assessment of an in-service teacher learning program: Differences in mathematics teachers' judgements on instructional quality. ZDM - International Journal on Mathematics Education, 38(5), 413-421. doi:10.1007/BF02652802

Manganyana, C., van Putten, S., & Rauscher, W. (2020). The use of geogebra in disadvantaged rural geometry classrooms. International Journal of Emerging Technologies in Learning, 15(14), 97-108. doi:10.3991/ijet.v15i14.13739

Olsson, J. (2019). Relations between task design and students’ utilization of GeoGebra. Digital Experiences in Mathematics Education, 5(3), 223-251. Retrieved from www.scopus.com

Olsson, J., & Granberg, C. (2019). Dynamic software, task solving with or without guidelines, and learning outcomes. Technology, Knowledge and Learning, 24(3), 419-436. doi:10.1007/s10758-018-9352-5

Papadakis, S., Kalogiannakis, M., & Zaranis, N. (2018). Educational apps from the android google play for greek preschoolers: A systematic review. Computers and Education, 116, 139-160. doi:10.1016/j.compedu.2017.09.007

Papadakis, S., Kalogiannakis, M., & Zaranis, N. (2021). Teaching mathematics with mobile devices and the realistic mathematical education (RME) approach in kindergarten. Advances in Mobile Learning Educational Research, 1(1), 5-18. Retrieved from www.scopus.com

Papadakis, S., Kalogiannakis, M., & Zaranis, N. (2018). The effectiveness of computer and tablet assisted intervention in early childhood students’ understanding of numbers. an empirical study conducted in greece. Education and Information Technologies, 23(5), 1849-1871. doi:10.1007/s10639-018-9693-7

Putra, Z. H. (2019). Praxeological change and the density of rational numbers: The case of pre-service teachers in denmark and indonesia. Eurasia Journal of Mathematics, Science and Technology Education, 15(5) doi:10.29333/ejmste/105867

Putra, Z. H., Hermita, N., & Alim, J. A. (2021). A Systematic Review of Research in Geogebra with College Students in Indonesia, Retrieved from www.scopus.com

Putra, Z. H., Witri, G., & Yulita, T. (2019). Development of powerpoint-based learning media in integrated thematic instruction of elementary school. International Journal of Scientific and Technology Research, 8(10), 697-702. Retrieved from www.scopus.com

Şandır, H., & Aztekin, S. (2016). Pre-service math teachers’ opinions about dynamic geometry softwares and their expectations from them. Mathematics Education, 11(3), 421-431. Retrieved from www.scopus.com

Sudirman, Mellawaty, Yaniwati, R. P., & Indrawan, R. (2020). Integrating local wisdom forms in augmented reality application: Impact attitudes, motivations and understanding of geometry of pre-service mathematics teachers'. International Journal of Interactive Mobile Technologies, 14(11), 91-106. doi:10.3991/ijim.v14i11.12183

Tatar, E., & Zengin, Y. (2016). Conceptual understanding of definite integral with GeoGebra. Computers in the Schools, 33(2), 120-132. doi:10.1080/07380569.2016.1177480

Tay, M. K., & Wonkyi, T. M. (2018). Effect of using geogebra on senior high school students' performance in circle theorems. African Journal of Educational Studies in Mathematics and Sciences, 14, 1-18. Retrieved from www.scopus.com

Yin, R. K. (1994). Case Study Research: Design and Methods, Retrieved from www.scopus.com

Žilinskiene, I., & Demirbilek, M. (2015). Use of geogebra in primary math education in lithuania: An exploratory study from teachers' perspective. Informatics in Education, 14(1), 129-144. doi:10.15388/infedu.2015.08

Zulnaidi, H., Oktavika, E., & Hidayat, R. (2020). Effect of use of GeoGebra on achievement of high school mathematics students. Education and Information Technologies, 25(1), 51-72. doi:10.1007/s10639-019-09899-y


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