The effectiveness of the GeoGebra Programme in the development of academic achievement and survival of the learning impact of the mathematics among secondary stage students
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Abu Thabet, A. (2013). The effectiveness of using GeoGebra and educational aids in the direct and deferred mathematical achievements of year 9 pupils in public schools in Nablus. (Master's thesis). Al-Najah National University, Nablus, Palestine. http://search.shamaa.org/FullRecord?ID=109014. Accessed 16 July 2020.
Ahmad, A. W., & Shahrill, M. (2014). Improving post-secondary students’ algebraic skills in the learning of complex numbers. International Journal of Science and Research (IJSR), 3(8), 273–279.
Al-Alawi, N. (2017). The impact and effectiveness of using GeoGebra to teach engineering students and reduce anxiety in engineering courses amongst first year high school pupils: Research derived from a master's thesis. Journal of Mathematics Education, 20(9), 208–244.
Al-Assaf, S. (2012). Introduction to research in behavioural sciences (2nd ed.). Riyadh, Saudi Arabia: Dar Al-Zahraa for Publishing and Distribution.
Al-Balawi, A. (2012). An interactive training program for learning and teaching mathematics. (Unpublished doctoral dissertation). Umm Al-Qura University, Makkah Al-Mukarramah, Kingdom of Saudi Arabia.
Al-Balawi, J. (2013). The impact of an educational program based on GeoGebra in solving mathematical problems and the motivation towards learning mathematics among first-year high school students in the Kingdom of Saudi Arabia. Journal of Education, 1(154), 681–729.
Al-Bassam, M. (2015). The principles of statistics for theoretical studies : Management and social sciences. Jeddah, Saudi Arabia: The Scientific Algorithm for Publication and Distribution.
Al-Dayel, S. (2011). The impact of using computers on the performance of level 2 pupils. https://cutt.us/40l2j. Accessed 16 July 2020.
Al-Enezi, Z. (2012). The effectiveness of using GeoGebra in teaching Engineering Concepts to level 1 secondary school students in Hail City According to Davis Levels. (Unpublished Master's thesis). Riyadh, Saudi Arabia: Imam Muhammad bin Saud Islamic University.
Al-Ghamdi, I. (2011). The impact of using GEOBOARD in teaching vector Geometry on maintaining effective learning in level 2 high school students. Education World, 36, 375–466.
Al-Hadi, M. (2005). E-learning through the internet. Cairo, Arab Republic of Egypt: Al-Dar Al-Masriah Al-Lubnaniah.
Ali, A. (2019). The effectiveness of a proposed strategy based on GeoGebra to develop mathematical communication skills in engineering for level five students. Journal of Mathematics Education, 22(8), 296–303.
Al-Jasser, S. (2011). The effect of using software that relay on geogebra program on the learning of mathematics between year 6 pupils’ in Arar. (Unpublished doctoral dissertation). Mecca, Saudi Arabia: Umm Al-Qura University.
Al-luqani, A., & Al-Jamal, A. (Eds.). (2003). A dictionary of educational terms defined in Teaching methods and curricula. Cairo, Arab Republic of Egypt: World of Books.
Al-Noaimi, G. (2016). The impact of using GeoGebra in developing mathematical interconnection skills in first year secondary school students in Riyadh. International Specialist Educational Journal, 5(5), 39–62. https://doi.org/10.12816/0044099.
Alves, F. R. V. (2014). Visualizing in polar coordinates with the Geogebra. Budapest, Hungary: GeoGebra International Conference.
Araujo, A. D. (2007). Beliefs about the teaching of complex numbers. (Master Thesis). University of Zulia, Zulia, Venezuela.
Ateeq, K. (2016). The impact of using Geogebra software on achievement and attitude towards learning mathematics in year 9 students. (Unpublished Master's thesis). Nablus, Palestine: An-Najah National University.
Aydos, M. (2015). The impact of teaching mathematics with Geogebra on the conceptual understanding of limits and continuity: The case of Turkish gifted and talented students. (Unpublished master’s thesis). İhsan Doğramacı Bilkent University, Ankara, Turkey.
Bagni, G. T. (2001). The introduction of the history of mathematics in the teaching of complex numbers. An experimental investigation carried out in upper secondary education. Latin American Journal of Research in Educational Mathematics, 4(1), 45–61.
Berlinghoff, W. P., & Gouvêa, F. Q. (2002). Math through the ages: A gentle history for teachers and others. Farmington, Maine: Oxford House Publishers.
Chavez, E. G. (2014). Teaching complex numbers in High School. (Master's Theses). Louisiana, Louisiana State University. https://digitalcommons.lsu.edu/gradschool_theses/1828. Accessed 16 July 2020.
Common Core State Standards Initiative (CCSSI). (2010). Common core state standards for mathematics. Retrieved from http://www.corestandards.org/math.. Accessed 16 July 2020.
Coolidge, J. (1952). The origin of polar coordinates. Mathematical Association of America, 59(2), 78–85. https://doi.org/10.2307/2307104.JSTOR2307104.
Dempsey, N. (2010). Complex numbers: a brief introduction. https://cstem.uncc.edu/sites/cstem.uncc.edu/files/media/SV/2010/ME/Neal%20Dempsey-%20Complex%20Numbers-%20A%20Brief%20Introduction.pdf. Accessed 16 July 2020.
Egan, K. (2008). Complex numbers. http://www.ierg.net/publications/teaching/m.html. Accessed 16 July 2020.
Flores, M., & Montoya, E. (2016). Artifact and mathematical workspace in the multiplication of complex numbers. Mathematics Education, 28(2), 85–117. https://doi.org/10.24844/EM2802.04.
Furkan, H., Zengin, Y., & Kutluca, T. (2012). The Effect of dynamic mathematics software GeoGebra on student achievement in teaching of trigonometry. Procedia Social and Sciences, 31, 183–187. https://doi.org/10.1016/j.sbspro.2011.12.038.
Furner, M. J., & Marinas, A. C. (2014). Addressing math anxiety in teaching mathematics using photography and GeoGebra. Eurasia journal of Mathematics, science and Technology, 3(1), 83–89.
Hohenwarter, M., & Preiner, J. (2007). Dynamic mathematics with GeoGebra. Journal of Online Mathematics and its Application, 7(1), 2–12.
International Society for Technology in Education. (2008). National educational technology standards for teachers. Retrieved from http://www.iste.org/Content/NavigationMenu/NETS/ForTeachers/NETS_for_Teachers.htm. Accessed 16 July 2020.
Ishaq, H. (2018). The effectiveness of using the GeoGebra software in developing visual thinking skills and learning mathematics for pupils in level 7. Educational and Psychological Studies, 99, 267–315.
Kadir, A., & Mohieddin, S. (2015). The effectiveness of GeoGebra on improving the performance and motivation towards mathematics of second level intermediate pupils. Journal of Arab Studies in Education and Psychology, 60(60), 245–269. https://doi.org/10.12816/0022438.
Lawless, K., & Pellegrino, J. W. (2007). Professional development in integrating technology into teaching and learning: Knowns, unknowns, and ways to pursue better questions and answers. Review of Educational Research, 77(4), 575–614.
Livingstone, C. (2008). Little Oxford English Dictionary and Thesaurus (2nd ed.). New York: Oxford University Press.
Martinovic, D., Karadag, Z., & McDougall, D. (2014). GEOGEBRA-NA 2014. In Proceedings of the Fifth North American GeoGebra Conference, GeoGebra-NA 2014, November 21-22, 2014. Toronto, ON: University of Toronto.
Matzin, R., Shahrill, M., Mahalle, S., Hamid, M. H. S., & Mundia, L. (2013). A comparison of learning styles and study strategies scores of brunei secondary school students by test anxiety, success attributions, and failure attributions: implications for teaching at-risk and vulnerable students. Review of European Studies, 5(5), 119–127.
Mi, O. H., Hyun, P. J., & Nam, K. O. (2013). An analysis of pre-service teachers’ reflective thinking for tasks on polar coordinates. Journal of the Korean Society of Mathematical Education Series, 17(2), 119–131.
Millán-Rojas, E., Gallego-Torres, A., & Chico-Vargas, D. (2016). Simulation of a grid network with virtual machines to create a learning environment of high performance computing. Revista Facultad de Ingeniería, 25(41), 85–92. https://doi.org/10.19053/01211129.4140.
Milner-Bolotin, M. (2014). Closing the research-practice gap through innovative technology use in stem teacher education. In Proceedings of the Fifth North American GeoGebra Conference, GeoGebra-NA 2014, November 21-22, 2014. Toronto, ON: University of Toronto.
Ministry of education. (2019). The Arab reality in TIMSS tests and future ambitions. https://www.moe.gov.sa/ar/news/Pages/t-m-2019-t.aspx. Accessed 16 July 2020.
Montiel, M., Vidakovic, D., & Kabael, T. (2008). Relationship between students' understanding of functions in Cartesian and polar coordinate systems. Investigations in Mathematics Learning, 1(2), 52–70.
Montiel, M., Wilhelmi, M., Vidakovic, D., & Elstak, I. (2009). Using the onto-semiotic approach to identify and analyze mathematical meaning when transiting between different coordinate systems in a multivariate context. Educational Studies in Mathematics, 72(2), 139–160.
Nahin, P. J. (2005). An imaginary tale: the story of the square root of -1. Princeton, NJ: Princeton University Press.
National Council of Teachers of Mathematics. (2008). The role of technology in the teaching and learning of mathematics: A position of the national council of teachers of mathematics. http://www.nctm.Org/about/content.aspx?id=14233. Accessed 16 July 2020.
NCTM. (2000). Principles and standards for school mathematics. Reston, VA: NCTM.
Nesbitt, N., & Bright, G. (1999). Elementary preservice teacher’s changing beliefs and instructional use of children’s mathematical thinking. Journal for Research Mathematics Education, 30(1), 99–100.
Obaidat, T., Abdul-Haqq, K., & Adas, A. (2011). Scientific research: concept, principles and methods. Amman, The Hashemite Kingdom of Jordan: Dar Al-Fikr Publishers and Distributors.
Öçal, M. F. (2017). Asymptote misconception on graphing functions: Does graphing software resolve it? Malaysian Online Journal of Educational Technology, 5(1), 21–33.
Paoletti, T., Moore, K. C., Gammaro, J., & Musgrave, S. (2013). Students’ emerging understandings of the polar coordinate system. In S. Brown, G. Karakok, K. H. Roh, & M. Oehrtman (Eds.), Proceedings of the sixteenth annual conference on research in undergraduate mathematics education (pp. 366–380). Denver, CO: University of Northern Colorado.
Ries, Z., & Ozdemir, S. (2010). Using GeoGebra as an information technology tool: Propola teaching. Procedia Social and Sciences, 9, 565–572. https://doi.org/10.1016/j.sbspro.2010.12.198, https://core.ac.uk/reader/82137740. Accessed 16 July 2020.
Saha, R., Ayub, A., & Tarmizi, R. (2010). The effects of GeoGebra on achievment: Enlightening coordinate geometry learning. Procedia Social and Sciences, 8, 686–693. https://doi.org/10.1016/j.sbspro.2010.12.095.
Sayre, E., & Wittman, M. (2007). Intermediate mechanics students’ coordinate system choice. San Diego: Electronic Proceedings for the Tenth Special Interest Group of the Mathematical Association of America on Research in Undergraduate Mathematics Education Conference on Research in Undergraduate Mathematics Education.
Shadaan, P., & Leong, K. E. (2013). Effectiveness of using Geogebra on students’ understanding in learning circles. Malaysian Online Journal of Educational Technology, 1(4), 1–11.
Strogatz, S. (2010). Finding your roots. New York Times. https://opinionator.blogs.nytimes.com/2010/03/07/finding-your-roots/. Accessed 16 July 2020.
Tatar, E., & Zengin, Y. (2016). Conceptual understanding of definite integral with Geogebra. Computers in the Schools, 33(2), 120–132. https://doi.org/10.1080/07380569.2016.1177480.
Zaytoon, K. (2009). Teaching his models and skills. Cairo, Arab Republic of Egypt: World of Books.