Exploring Gifted and Talented Muslims Student’s Performance Using Geogebra in Teaching and Learning Mathematics

NORAZLINA SUBANI, MUHAMMAD ZAIM MOHAMAD SHUKRI, MUHAMAD ARIF SHAFIE MOHD NASRUL

Abstract


GeoGebra is a teaching tool that educators use in their lesson plans to improve the quality of teaching and learning. Instead of drawing on a sheet of paper, students can design a graph, adjust the actual graph shape, and examine the impact of changing graph pattern using GeoGebra in mathematics teaching and learning. Furthermore, students can keep all of their work materials in a structured manner for future reference. GeoGebra will make a school lecture more interesting, exciting, creative, and innovative. The goal of this study was to analyse the effects of GeoGebra software in Mathematics achievement in respect to quadratic functions among gifted and talented Muslims student’s at Kolej GENIUS Insan, Universiti Sains Islam Malaysia. The maximum or minimum point of quadratic function was determined by using GeoGebra software, and the characteristics of quadratic expressions in one variables was also identified. The results illustrate that the graph quadratic expression has the highest point or the lowest point based the values of coefficient a on the quadratic function.  For the graph function with negative values of coefficient a on a quadratic function, there are highest values of coordinates x and y, which also known as maximum point, while the graph function with positive values of a on a quadratic function, there are lowest values of coordinates x and y, which also known as minimum point. When students utilize GeoGebra software, their performance in calculating the minimum and maximum points on quadratic functions improves.

Keywords: Geogebra; Integrated naqli ‘aqli gifted education; Gifted muslims student; Mathematics achievement; Quadratic functions


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References


Battista, M. T. 1999. Geometry results from the third international mathematics and science study. Teaching Children Mathematics 5(6): 367-373.

Choo, Y. P., Renu, T., Raman, K., Wen, W. J. and Santhanasamy, V. D. S. 2019. Kurikulum Standard Sekolah Menengah Dual Language Programme Mathematics Form 4. Sasbadi Sdn. Bhd. Malaysia: Selangor Darul Ehsan.

Dogan, M., and İçel, R. 2011. The role of dynamic geometry software in the process of learning: GeoGebra example about triangles. Journal of Human Sciences 8(1): 1441-1458.

Dolbilin, N. 2004. Geometry in Russian Schools: Traditions of Past and State in Present. Proceedings of the 9th International Congress on Mathematical Education, pp. 118-120

Domènech, N. I. 2009. Influence of Dynamic Geometry Software on Plane Geometry Problem Solving Strategies. Doctoral Dissertation of University of Autònoma de Barcelona.

Fahlberg-Stojanovska, L., and Stojanovski, V. 2009. GeoGebra - Freedom to explore and learn. Teaching Mathematics and its Applications 28(2): 69-76.

Furner, J. M., and Marinas, C. A. 2012. Connecting Geometry, Measurement, And Algebra Using Geogebra for The Elementary Grades. In Twenty-fourth Annual International Conference on Technology in Collegiate Mathematics, pp. 63-72.

Hohenwarter, J., Hohenwarter, M., and Lavicza, Z. 2009. Introducing dynamic mathematics software to secondary school teachers: The case of GeoGebra. Journal of Computers in Mathematics and Science Teaching 28(2): 135-146.

Hohenwarter, M., Hohenwarter, J., Kreis, Y., and Lavicza, Z. 2008. Teaching and Calculus with Free Dynamic Mathematics Software GeoGebra. In 11th International Congress on Mathematical Education.

Idris, N. 2006. Teaching and Learning of Mathematics: Making Sense and Developing Cognitives Ability. Kuala Lumpur: Utusan Publications & Distributors Sdn. Bhd.

Kaushal, K. B., and Chun-Yen, C. 2015. Incorporating GeoGebra into geometry learning-a lesson from India. Eurasia Journal of Mathematics, Science & Technology Education 11(1): 77-86

Kiong, W. M, Musa, Z., Kamar, A., Ahmad, S., Zaki, N., and Borhan, Z. H. 2019. Kurikulum Standard Sekolah Menengah Dual Language Programme Additional Mathematics Form 4. Pelangi Sdn. Bhd. Malaysia: Selangor Darul Ehsan.

Laborde, C. 2014. Interactivity and Flexibility Exemplified with Cabri. In Plenary lecture given at the Asian Technology Conference in Mathematics.

Mammana, C. and Villani, V. (eds.) 1998. Perspectives on the Teaching of Geometry for the 21st Century, An ICMI Study. The Netherlands: Kluwer Academic Publishers.

Okafor, C. F., and Anaduaka, U. S. 2013. Nigerian school children and mathematics phobia: how the mathematics teacher can help. American Journal of Educational Research 1(7): 247-251.

Pannen, P. 2014. Integrating Technology in Teaching and Learning Mathematics. In Electronic Proceedings of the 19th Asian Technology Conference in Mathematics. Yogyakarta: Indonesia.

Preiner, J. 2008. Introducing Dynamic Mathematics Software to Mathematics Teachers: The Case of GeoGebra.

Saha, R. A., Ayub, A. F. M., and Tarmizi, R. A. 2010. The effects of GeoGebra on mathematics achievement: Enlightening coordinate geometry learning. Procedia-Social and Behavioral Sciences 8: 686-693.


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