Effects of Islamic Scientist History on Seventh Graders' Understandings of Nature of Science in a Thai Islamic Private School

R. Safkolam, P. Khumwong, C. Pruekpramool, A. Hajisamoh

Abstract

Societies and cultures influence students' understandings of the nature of science (NOS). An approach to promote an accurate understanding of the nature of science is to manage the learning based on students' contexts through the integration of their social, cultural, and religious stories. Hence, this study investigated the pedagogical effects of Islamic scientist history on seventh graders' understandings of the nature of science in an Islamic private school, Yala Province, Thailand. Through a mixed-methods convergent design, data were collected from 30 seventh graders in an Islamic private school of Yala who were selected through a convenience sampling. The instruments were 1) a NOS questionnaire and 2) a semi-structured interview on the understanding of the nature of science. The quantitative data were statistically analyzed using mean, standard deviation, and a dependent t-test. The qualitative data were analyzed through content analysis and categorized into three groups based on the views of the nature of science: informed views (IV), transitional views (TV), and naive views (NV). Results revealed that the students who learned from the history of Islamic scientists had gained higher mean scores on the understanding of the nature of science at the .05 significance level and transformed their views from transitional (TV) and naive (NV) to informed (IV) in every aspect of the nature of science. This can be summarized that applying the history of Islamic scientists with the explicit reflective NOS teaching is practical in Islamic private school. To make this change happen in the unique school context, science teachers must devote time to analyzing the NOS hidden in the history of Islamic scientists. In addition, another Islamic context, such as local Islamic wisdom, could also promote the understanding of the NOS for students in private Islamic schools.

Keywords

nature of science; history of Islamic scientists; explicit reflective approach; Islamic private school

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References

Abd-El-Khalick, F. (2013). Teaching with and about the nature of science, and science teacher knowledge domains. Science & Education, 22(9), 2087-2107.

Afalo, E. (2018). Changes in the perceptions of the nature of science and religious belief. Issue in Education Research, 28(2), 237-253.

Alghamdi, A. K., & Malikan, M. (2020). Saudi science teachers’ perceptions of cultural factors influencing elementary students’ science learning. Cultural Studies of Science Education,15,1143-1167.

Ayik, Z. & Costu, B. (2020). A study on demonstration of the nature of science in science textbooks: history and philosophy of science perspectives. Jurnal Pendidikan IPA Indonesia, 9(3), 451-464.

Baka, M. (2011). The Integration of contents and learning standards for the level 3 of Islamic private schools in southern border provinces of Thailand. (Doctoral dissertation, Songkhlanakarin University)

Buaraphan, K. (2018). In-service science teachers’ common understanding of nature of science. OIDA International Journal of Sustainable Development, 6(5), 17-37.

Costa, V. B. (1995). When science is “another world: relationships between worlds of family, friends, school, and science. Science Education, 79(3), 313-333.

Creswell, J. W. & Plano Clark, V. L. (2018). Designing and conducting mixed methods research (3rd ed.). Singapore: SAGE.

Clough, M. P. (2018). Teaching and Learning About the Nature of Science. Science & Education, 27, 1-5.

Das, P. M., Faikamta, C. & Punsuvon, V. (2019). Bhutanese students’ views of nature of science: a case study of culturally rich country. Research in Science Education, 49, 391-412.

Fitriani, E., & Fibriana, F. (2020). Analysis of Religious Characters and Logical Thinking Skills After Using Solar System Teaching Material Integrated with Islamic Science. Journal of Innovation in Educational and Cultural Research, 1(2), 69-76.

Fouad, K. E., Master, M. H., & Akerson, V. L. (2015). Using history of science to teach nature of science to elementary students. Science & Education, 24(9), 1103-1140.

Gathong, S. & Chamrat, S. (2019). The implementation of science, technology and society environment (STSE)-based learning for developing pre-service general science teachers’ understanding of the nature of science by empirical evidence. Jurnal Pendidikan IPA Indonesia, 8(3), 345-360.

Garcı´a-Carmona, A. & Dı´az, J. A. A. (2016). Learning about the nature of science using newspaper articles with scientific content: a study in initial primary teacher education. Science & Education, 25, 523-546.

Karakas, M. (2017). Turkish students’ views on nature of science. European Journal of Education Studies, 3(10), 176-183.

Kim, S. Y., & Hamdan Alghamdi, A. K. (2020). Saudi Arabian secondary students’ views of the nature of science within Islamic context. International Journal of Science Education,

(13), 2266-2283.

Lederman, N. G. (2007). Nature of science: Past, present, and future. In S. K. Abell & N. G. Lederman (Eds.), Handbook of research on science education (pp. 831–879). Lawrence Erlbaum.

Lederman, N. G., Abdul-El-Khalick, F., Bell, R. L., & Schwartz, R. S. (2002). View of nature of science questionnaire: toward valid and meaningful assessment of learner’s conceptions of nature of science. Journal of Research in Science & Teaching, 39(6), 497-521.

Lederman, N. G. & Lederman, G. S. (2019). Teaching and learning nature of scientific knowledge: Is it Déjà vu all over again. Disciplinary and Interdisciplinary Science Education Research, 1(6), 1-9.

Liang, L., Chen, S., Xiam, C., Kaya, O.N., Adams, A.D., Monica, M., & Ebenezer, J. (2008). Assessing preservice teachers’ views on the nature of scientific knowledge: a dual-response instrument. Asia-Pacific on Science Learning and Teaching, 9(1), 1-20.

Lillahkul, N., & Supanakul, P. (2018). Way of life of Muslim people in Thailand’s southern provinces, and health promoting lifestyle. The Southern College Network Journal of Nursing and Public Health, 5(2), 302-312.

Lin, H. S., & Chen, C. C. (2002). Promoting pre-service chemistry teachers, understanding about the nature of science through history, Journal of Research in Science Teaching, 39(9), 773-792.

Mansour, N. (2010). Science teachers’ interpretations of Islamic culture related to science education versus the Islamic epistemology and ontology of science. Cultural Studies of Science Education, 5, 127-140.

McDonald, C. V., & Abd-El-Khalick, F. (2017). Representations of nature of science in school science textbooks. In C. V. McDonald & F. Abd-El-Khalick (Eds.), Representations of nature of science in school science textbooks: A global perspective (pp. 1–19). London: Routledge.

Meyer, X., & Crawford, A. B. (2011). Teaching science as a cultural way of knowing: merging authentic inquiry, nature of science, and multicultural strategies. Cultural Studies in Science Education, 6, 525-547.

Michel, H. & Newmann, I. (2017). Nature of Science and science content learning the relation between students’ nature of science understanding and their learning about the concept of energy. Science & Education, 25(9), 951-975.

Ministry of Education. (2008). The Basic Education Core Curriculum B.E. 2551 (A.D.2008). Retrieved December 17, 2020, from http:// www.act.ac.th/document/1741.pdf.

NGSS. (2013). Next generation science standards: for states, by states. Washington, DC: National Academies Press.

Nelson, C. E., Scharmann, L. C., Beard, J., & Flammer, L. I. (2019). The nature of science as a foundation for fostering a better understanding of evolution. Curriculum and Education, 12(6), 2-16.

Niyomwong, N. (2015). Improving teaching and learning process in science and technology for society and living (STSL) course to develop the understanding of nature of science: A Participatory Action Research. (Doctoral dissertation, Kasertsart University).

Nur, E. M., & Fitnat, K. (2015). Explicit-reflective teaching nature of science as embedded within the science topic: Interactive historical vignettes technique. Journal of Education and Training Studies, 3(6), 40-49.

Olusegun, S. B. (2015). Constructivism learning theory: a paradigm for teaching and learning. IOSR Journal of Research & Method in Education, 5(6), 66-70.

Reid-Smith, J. A. (2013). Historical short stories as nature of science instruction in secondary science classrooms: science teachers, implementation and students, reactions. (Doctoral dissertation, The Iowa State University).

Safkolam, R., Khumwong, P., Pruekpramool, C., & Hajisamoh, A. (2017). Science teachers, understanding and teaching of nature of science in Islamic private schools in Yala Province. Al-Hikmah, 7(14), 127-139.

Sangsa-ard, R., Thathong, K. & Chapoo, S. (2014). Examining grade 9 students, conceptions of the nature of science. Procedia- Social and Behavioral Sciences, 116, 382-388.

Saree, M., Jorajit, S., & Nawsuwan, K. (2018). School’ strategic management towards being a world-class standard school of Islamic private school schools in three southern border provinces of Thailand. Princes of Narathiwas University Journal of Humanities and Social Sciences, 6(2), 89-102.

Schreier, M. (2012). Qualitative content analysis in practice. London: Sage.

Stinner, A., Klassen, S., & Mcmillan, B. A. (2003). The renewal of case studies in science education. Science & Education, 12(7), 617-643.

Sutherland, D., & Dennick, R. (2002). Exploring culture, language and perception of the nature of science. International Journal of Science Education, 24(1), 25–36.

Tabel, K., Billingsley, B., Riga, F., & Newdick, H. (2011). To what extent do pupils perceive science to be inconsistent with religious faith? An exploratory of 13-14 years- old English pupils. Science Education International, 22(2), 99-118.

Tolvanen, S., Jansson, J., Vesterinen, V. M., & Aksela, M. (2014). How to use historical approach to teach nature of science in chemistry education. Science & Education, 23(8), 1605-1636.

Thiangchanthathip, K. (2016). The development of HI-ER learning model for enhancing scientific conceptions, and the nature of science understanding of 10th grade students. (Doctoral dissertation, Srinakharinwirot University).

Vongmontha, A. (2012). Developing the potential for educational management in Islamic private schools in three southern border Provinces. Songklanakarin Journal of Social Science & Humanities, 19(1), 255-280.

Wan, Z. H., Wong, S. L., & Zhan, Y. (2013). When nature of science meets Marxism: aspects of nature of science taught by Chinese science teacher educators to prospective science teachers. Science & Education, 22(5), 1115-1140.

Wicaksono, A. G., Minarti B. I., & Roshayanti, F. (2018). Analysis of students’ science motivation and nature of science comprehension in middle school. Indonesian Journal of Biology Education, 4(1), 35-42.

Williams, C. T., & Rudge, D. W. (2016). Emphasizing the history of genetics in an explicit and reflective approach to teaching the nature of science: a pilot study. Science & Education, 25, 407-427.

Winslow, M. W., Staver, J. R., & Scharmann, L. C. (2011). Evolution and personal religious belief: Christian university biology-related majors, search for reconciliation. Journal of Research in Science Teaching, 48(9), 1026-1049.

Wolfenburger, B., & Canella, C. (2015) Cooperative learning about nature of science with a case from the history of science. International Journal of Environmental & Science Education, 10(6), 865-889.

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