Investigating the level of realization of the context-oriented approach in the sixth-grade science course: from the perspective of content and implementation
Subject Areas : Research in Curriculum PlanningZeinab Fazeli 1 , Masoomeh Jalilian 2 , Zahra Rahimi 3
1 - Master's Degree in Elementary Education, Allameh Tabataba’i University, Faculty of Psychology and Education, Tehran, Iran.
2 - Master's Degree in Curriculum Studies, Allameh Tabataba’i University, Faculty of Psychology and Education, Tehran, Iran.
3 - Assistant Professor, Department of Education, Allameh Tabataba’i University, Faculty of Psychology and Education, Tehran, Iran.
Keywords: elementary school, science textbook, context-oriented approach,
Abstract :
The purpose of this study is the content analysis of the science book in grade 6 to evaluate the success rate of this book in dealing with the context-oriented approach as well as the extent of its implementation from the viewpoint of the teachers in this grade. In the first part, Shannon's entropy content analysis was used to analyze the science book for the 6th grade in the academic year 2022-2023 with the help of a checklist. The statistical population of the second part includes teachers who were teaching in the 6th grade in the 6th and 18th districts of Tehran in the academic year 2022-2023. Calculating the sample size by using the Krejcie-Morgan sampling table, 103 people were estimated. A questionnaire was used to collect data. According to the findings, the coefficient of the importance of components research-oriented, collaborative learning, and the theory-practice connection is more; and problem-oriented and application are less than others. In addition, except for the theory-practice connection and application, other components are taken into consideration by teachers during training.
Ahmadi, Gh.A. (2002). Examining the level of congruence and coordination between the three planned, implemented, and achieved programs in the new primary science education program. Research project, Research Institute of Education and Training. [Persian].
Akbarian, N. & Aiati, M. (2015). Examining the context-oriented (thematic) approach in science textbooks of the first year of elementary school. The second international conference of psychology, educational sciences, and lifestyle. [Persian].
Asadpour, S., Assareh, A., Ahmadi, G.A., Emamjome, SM.R. (2022). Designing and validation of the context-based curriculum model with emphasis on connectivism for teaching sciences. Research in Curriculum Planning, Vol 18. No 44 (continus 71), 197-216. [Persian].
Avargil, S., Herscovitz, O., Judy, Y. (2012). Teaching Thinking Skills in Context-Based Learning: Teachers' Challenges and Assessment Knowledge. J Sci Educ Technol, 21:207-225.
Azar, A. (2001). Expansion and development of Shannon's entropy method for data processing in content analysis. Quarterly Al-Zahra University Scientific-Research Humanities, 11 (37-38), 1-18. [Persian].
Baran, M., Maskan, A.K., Baran, M., Türkan, A., & Yetisir, M.I. (2016). Examining High School Students' Attitudes towards Context Based Learning Approach with Respect to Some Variables. International Journal of Environmental and Science Education, 11(5), 851-865.
Barber, M. (2001). A comparison of NEAB and Salters A-level Chemistry: student views and achievements. Unpublished MA thesis University of York, UK.
Barker, V., Millar, R. (2000). Students`Rersoning about Basic Chemical Thermodynamics and Chemical Context-based Post-16 chemistry Course. International Journal of bonding what Changes Occur during a Science Education, 1171-1200.
Beasley, W., Butler, J. (2002). Implementation of context-based science within the freedoms offered by Queensland schooling. Paper presented at the annual meeting of Australasian Science and Education Research Association Conference, Townsville, Queensland.
Bennett, J., Campbell, B., Hogarth, S., & Lubben, F. (2007). A systematic review of the effects on high school students of context-based and science-technology-society (STS) approaches to the teaching of science. Department of Educational Studies, the University of York, UK.
Bennett, J., Lubben, F. (2006). Context-based chemistry: The Salters approach. International Journal of Science Education, 28, 999–1015.
Bezi, A.M., Jalali Nia, M. & Nehari, H.A. (2016) Studying the thematic approach in teaching experimental sciences. Fourth National Conference on Sustainable Development in Educational Sciences and Psychology, Social and Cultural Studies, Tehran. [Persian].
Cooper, M.M., Hovig Kouyoumdjian, H., Underwood, S.M (2016). Investigating Students Reasoning about Acid−Base Reactions. Journal of Chemical Education.
Curriculum guide for experimental sciences of the six-year primary course (2012). Office of planning and authoring textbooks. Tehran: Educational Research and Planning Organization of the Ministry of Education. [Persian].
Delavar, A. (2014). Theoretical and practical foundations of research in humanities and social sciences. Tehran: Roshd. [Persian].
Elham, H. (2018) Application of field-based educational approaches based on exploration and virtual laboratory to correct students' misunderstandings in acid and base chemistry. Doctoral Thesis, Faculty of Chemistry, Department of Organic Chemistry. [Persian].
Elmas, R., Geban, O. (2016). The effect of context-based chemistry instruction on 9th-grade students' understanding of cleaning agent’s topic and their attitude toward the environment. Egitim ve Bilim-Education and Science, 41(185), 33-50.
Emamjome, SM.R. (1998). Content analysis of third and fourth-grade experimental science books in the academic year 97-98. Master's thesis, Tarbiat Modares University. [Persian].
Gilbert, J.K. (2006). On the Nature of “Context” in Chemical Education. International Journal of Science Education, 28(9), 957-976.
Holbrook, J. (2014). A context-based approach to Science teaching. Journal of Baltic Science Education, 13(2), 1648-3898.
Holman, J., & Pilling, G. (2004). Thermodynamics in Context, a Case Study of Contextualized Teaching for Undergraduates. Journal of chemical education, 8(3), 373- 376.
Ilhana, N., Yildirimb, Y., Yilmazc, S.S. (2016). The Effect of Context-based Chemical Equilibrium on Grade 11 Students' Learning, Motivation and Constructivist Learning Environmen. International Journal of Environmental & Science Education, 11(9), 3117-3137.
Karam al-Dini, M. (2020). Towards merit (in the words of Mahmoud Amani Tehrani). Development of Biology Education, 25(48).
King, D.T., Winner, E., & Ginns, I. (2011). Engaging middle school students in context-based science: One teacher’s approach. Proceedings of the 1st International Conference of STEM in Education, 1-18.
Lohrasbi, M. (2020). The role of using e-books with a context-oriented approach in increasing students' motivation to study geology. 39th National Congress and 4th International Congress of Earth Sciences. [Persian].
Magwilang, E.B. (2016). Teaching Chemistry in Context: It’s Effects on Students: Motivation, Attitudes and Achievement in Chemistry. International Journal of Learning, Teaching and Educational Research, 15(4), pp. 60-68.
Madanipour, D. (2014). Investigating the implementation of the context-oriented (thematic) approach in the experimental science curriculum of the sixth grade of primary public schools in Karaj city in Alborz province from the teachers' point of view in the academic year 2012-2013. Published Master's Thesis, Department of Curriculum Planning, Shahid Rajaee Tarbiat University. [Persian].
Najari, M., & Rahimi, A.M. (2020). Analysis of the content of the fourth-grade science textbook based on the context-oriented approach. The 5th International Conference on Innovation and Research in Educational Sciences, Management and Psychology, Tehran. [Persian].
Panek, H.S. (2012). Context-Based Science Instruction. Education and Human Development Masters Theses. The State University of New York.
Ramsden, J.M. (1997). How does a context-based approach influence understanding of key chemical ideas at 16+. International Journal of Science Education, 19(6), 697–710.
Rezaei, M., Belmaneh, P. & Ahmadi, Gh. (2018). Content analysis of elementary school social science books based on a context-oriented approach. Research in curriculum planning, vol 15, No 31(continue 58), 123-135. [Persian].
Rubba, P.A. (1991). Integrating STS into school science and teacher education: Beyond awareness. Theory into Practice, 30(4), 303-308.
Saadat Amini, A. (2017). Investigating the effect of teaching the concepts of magnetism with a context-oriented approach on the student's learning level. Published Master's Thesis, Department of Physics, Faculty of Basic Sciences. [Persian].
Sanati, F., Akbarian, N., & Isaei, N. (2015). Examining the context-oriented (thematic) approach in science textbooks of the first year of elementary school. National Conference on Elementary Education, 1121-1134. [Persian].
Samii, D.M. (2013). The development of academic guidance education, 8(185). [Persian].
Sheikh al-Islami, H., Ahmadi, G.A., Ezra, A. & Reihani, E. (2019). Content analysis of new math books and teacher's guide for the 10th year of humanities (with emphasis on the context-oriented approach). Journal of theory and practice in curriculum, 7th year, number 13, 79-110. [Persian].
Sungur, S., Tekkaya, C. (2006). Effects of Problem-Based Learning and Traditional Instruction on Self-Regulated Learning. The Journal of Educational Research 99(5): 307-320.
Tural, G. (2013). The functioning of context-based physics instruction in higher education. In Asia-Pacific Forum on Science Learning and Teaching. 14(1), 3-23.
UNESCO (2001). Learning the inner treasure (translated by Faqihi Qazvini, F & Raouf, A). Research Institute of Education and Training.
Vogelzang, J., Admiraal, W.F. (2017). Classroom action research on formative assessment in a context-based chemistry course. Educational Action Research, 25(1), 155–166.
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