KnE Social Sciences
ISSN: 2518-668X
The latest conference proceedings on humanities, arts and social sciences.
The Effectiveness of Web-based Inductive Learning Assisted on GeoGebra
Published date: Apr 03 2024
Journal Title: KnE Social Sciences
Issue title: International Conference on Mathematics and Science Education (ICMScE 2022): Learning Materials and Modules
Pages: 583–593
Authors:
Abstract:
This research used web-based inductive learning that facilitated plane geometry learning, where the learning was carried out online. It was hypothesized that students could learn the concept of plane geometry better when students were involved in the induction process with the help of GeoGebra software. They did explore with GeoGebra software to form several examples of the concept, testing the patterns that existed in the examples, and generalized the findings into new knowledge. With the help of the web and GeoGebra software, students could carry out their own learning and make their own discoveries. To test the effectiveness of web-based inductive learning, two classes were involved in the research, they were students of the Mathematics education study program Faculty of Teacher Training and Education, University of Bengkulu who took plane geometry class in the even semester of the 2021/2022 academic year as many as 68 students. This research was a quasi-experimental research with a post-test-only control group design. The instrument used for measurement was a description test. Based on the data analysis, it was found that the learning outcomes using web-based inductive learning assisted on GeoGebra were better than those using the expository method.
Keywords: web, inductive learning, geogebra
References:
[1] Kanari Z, Millar R. Reasoning from data: how students collect and interpret data in science investigations. J Res Sci Teach. 2004;41(7):748–69.
[2] Park J, Han S. Using deductive reasoning to promote the change of students’ conceptions about force and motion. Int J Sci Educ. 2002;24(6):593–609.
[3] Oehrtman M, Lawson AE. Connecting science and mathematics : the nature. Int J Sci Math Educ. 2008;6(2):377–403.
[4] Vainikainen MP, Hautamäki J, Hotulainen R, Kupiainen S. General and specific thinking skills and schooling: preparing the mind to new learning. Think Skills Creativity. 2015;18:53–64.
[5] Arslan C, Ilkörücü S, Seden M. Learning and reasoning styles of pre service teachers ’: inductive or deductive reasoning on science and mathematics related to their learning style. Procedia Soc Behav Sci. 2009;1(1):2460–5.
[6] Gultom EM, Syahputra E. “The difference of students’ ability on mathematics communication through numbered heads together combined with inductive deductive approach and expository method,” Advances in Social Science, Education and Humanities Research. vol. 104, no. Aisteel, pp. 326–329, 2017. https://doi.org/10.2991/aisteel-17.2017.69.
[7] Hidayati VR, Subanji S, Sisworo S. Students’ mathematical connection error in solving pisa circle problem [ Jurnal Ilmiah Pendidikan Matematika]. JIPM. 2020;8(2):76.
[8] Csapó B, Lörincz A, Molnár G. Innovative assessment technologies in educational games designed for young students. Springer; 2012. pp. 1–461.
[9] Griffin P, Care E. Assessment and teaching of 21st century skills: method and approach. Springer; 2015. https://doi.org/10.1007/978-94-017-9395-7.
[10] Gürsul F, Keser H. The effects of online and face to face problem based learning environments in mathematics education on student’s academic achievement. Procedia Soc Behav Sci. 2009;1(1):2817–24.
[11] Mokmin N, Masood M. “Advanced computer and communication engineering technology proceedings of the 1st international conference on communication and computer engineering.,” Lecture Notes in Electrical Engineering. vol. 315, no. January 2023, p. 2015.
[12] Klauer KJ, Phye GD. Inductive reasoning: a training approach. Rev Educ Res. 2008;78(1):85–123.
[13] Hardianti D, Priatna N, Priatna BA. “Analysis of geometric thinking students’ and process-guided inquiry learning model.” Journal of Physics: Conference Series. vol. 895, p. 2017. https://doi.org/10.1088/1742-6596/895/1/012088.
[14] Abidin ZZ, Abu MS. “Alleviating geometry levels of thinking among indonesian students using van hiele-based interactive visual tools.,” Edupress. p. 2011.
[15] Fitriyani H, Widodo SA, Hendroanto A. Students’ geometric thinking based on van hiele’s theory. Infinity Journal. 2018;7(1):55.
[16] Arbain N, Shukor NA. “The effects of geogebra on students achievement.,” Procedia - Social and Behavioral Sciences. vol. 172, no. 2007, pp. 208–214, 2015. https://doi.org/10.1016/j.sbspro.2015.01.356.
[17] Takaci D, Stankov G, Milanovic I. Efficiency of learning environment using geogebra when calculus contents are learned in collaborative groups. Comput Educ. 2015;82:421–31.
[18] Aizikovitsh-Udi E, Radakovic N. “Teaching probability by using geogebra dynamic tool and implemanting critical thinking skills.,” Procedia - Social and Behavioral Sciences. vol. 46, no. Galotti. 2012;1989:4943–7.
[19] Reis ZA, Ozdemir S. “Using geogebra as an information technology tool: parabola teaching.,” procedia - social and behavioral sciences. vol. 9, pp. 565–572, 2010.
[20] Sawyer R. The cambridge handbook of the learning sciences. 2006.
[21] Yang EF, Liao CC, Ching E, Chang T, Chan TW. “The effectiveness of inductive discovery learning in 1: 1 mathematics classroom.,” Proceedings of the 18th International Conference on Computers in Education: Enhancing and Sustaining New Knowledge Through the Use of Digital Technology in Education, ICCE 2010. pp. 743–747, 2010.
[22] Mousa M, Molnár G. Computer-based training in math improves inductive reasoning of 9- to 11-year-old children. Think Skills Creativity. 2020;37( January):1–11.
[23] Rott B. Inductive and deductive justification of knowledge: epistemological beliefs and critical thinking at the beginning of studying mathematics. Educ Stud Math. 2021;106(1):117–32.