طراحی الگوی بازنگری برنامه درسی علوم تجربی دوره ابتدایی مبتنی بر دیدگاه یادگیری عمیق فولن: یک مطالعه سنتزپژوهی
محورهای موضوعی : پژوهش در برنامه ریزی درسی
1 - دانشیار گروه علوم تربیتی، دانشکده ادبیات و علوم انسانی، دانشگاه قم، قم، ایران
کلید واژه: الگوی بازنگری برنامه درسی, طراحی, دیدگاه یادگیری عمیق فولن, علوم تجربی دوره ابتدایی, سنتزپژوهی,
چکیده مقاله :
هدف از پژوهش حاضر، طراحی الگوی بازنگری برنامه درسی علوم تجربی دوره ابتدایی مبتنی بر یادگیری عمیق دیدگاه فولن بود. روش پژوهش کیفی و به روش سنتزپژوهی بر اساس مدل کلاین بود. حوزه پژوهش شامل متون مرجع در حوزه شناسایی اصلاحات آموزشی مورد نیاز به منظور بازنگری برنامه درسی علوم تجربی دورۀ ابتدایی در سالهای 1389 تا 1400 برای اسناد داخلی و سالهای 2010 تا 2021 برای اسناد خارجی بود. بر این اساس 51 منبع با شیوه انتخاب هدفمند مورد مطالعه و بررسی قرار گرفتند و توقف فرایند نمونه گیری، بر مبنای اشباع نظری بود. در مرحله بعد، به منظور تأیید اعتبار اجزای استخراج شده، جامعۀ پژوهش شامل متخصصان حوزه علوم تربیتی دارای مدرک دکتری در رشتههای برنامهریزی درسی و آموزش و پرورش دوره ابتدایی بودند. نمونه مورد مطالعه نیز 10 نفر از متخصصان حوزه برنامهریزی درسی و آموزش و پرورش ابتدایی در شهر اصفهان در سال 1400 بودند که به صورت هدفمند انتخاب شدند. با روش لاوشه، نسبت روایی محتوایی (CVR) برای هر مؤلفه استخراج شده و همچنین هر جزء از الگو ارزیابی شد. نتایج نشان داد الگوی بازنگری برنامه درسی علوم دورۀ ابتدایی مبتنی بر دیدگاه فولن با هدف دستیابی به یادگیری عمیق و اهداف جزئی تقویت شایستگیهای دانشآموزان، توجه به عناصر طراحی آموزشی، اصلاح شرایط آموزش و تسهیل فرایند تحقیق مشترک، سودمندی و قابلیت اجرایی دارد. بنابراین به دستاندرکاران وزارت آموزش و پروش پیشنهاد میشود تا به منظور اعمال اصلاحات آموزشی در برنامه درسی علوم تجربی دوره ابتدایی، از الگوی طراحی شده استفاده نمایند.
The purpose of the current research was to design a model for revising the experimental science curriculum of elementary school based on the deep learning of Fulen's perspective. The qualitative research method was based on Klein's model. The research community included reference texts in the field of identifying educational reforms needed to revise the curriculum of experimental sciences from 2010 to 2021. Based on this, 51 sources were studied and investigated with a purposeful selection method, and the sampling process was stopped based on theoretical saturation. In the next step, in order to verify the validity of the extracted components, the research community included specialists in the field of educational sciences with doctorate degrees in the fields of curriculum planning and elementary education. The study sample was 10 experts in the field of curriculum planning and elementary education in Isfahan city in 2020, who were selected purposefully. With Lavache's method, content validity ratio (CVR) was evaluated for each extracted component as well as each component of the model. The results showed that the model of revising the primary science curriculum based on Fulen's perspective with the aim of achieving deep learning and the partial goals of strengthening students' competencies, paying attention to the elements of educational design, modifying the conditions of education and facilitating the joint research process, has usefulness and implementation capability. Therefore, it is suggested to the officials of the Ministry of Education and Research to use the designed model in order to implement educational reforms
Adib, Y., Karimi, B., Mahmoudi, F & Badrigregori, R. (2019). Analysis of curriculum planning of experimental sciences of fourth, fifth and sixth grades based on learning styles. Management and Planning in Educational Systems, 13(2): 177-194.
Ahmadi, P., Mehran, G. & Javadi, M. (2012). The process of changing the curriculum of experimental sciences of the elementary school. The national conference of changing the curriculum of education courses, Birjand.
Akhash, S., Abbasi, A. & Abedi Torab, R. (2014). Investigating the element of time in the experimental science curriculum of the sixth grade. National conference of primary education.
Anderman, E & Sinatra, G. (2018). The Challenges of Teaching and Learning about Science in the 21st Century: Exploring the Abilities and Constraints of Adolescent Learners. Paper Commissioned by the National Academy of Education.
Amimo, C., Role, E., Bosire, J. (2014). Globalization factors and implications for change in teacher education curriculum in private universities in Kenya. http://ir.jooust.ac.ke:8080/xmlui/handle/123456789/2548
Amin Khandaghi, M. & Zarghabi, K. (2011). An analysis of the state of the curriculum of experimental sciences in the elementary school of Iran with reference to the researches and studies done in this field. International science and technology education conference with an emphasis on the Islamic world.
Backanak, A. (2013). Teachers' Views about Science and Technology Lesson Effects on the Development of Students' Entrepreneurship Skills.
Badamchi, S. (2018). Evaluation in the service of learning experimental sciences in elementary school. The fifth international research conference in psychology, counseling and educational sciences
Bakhshi, M. (2015). Examining the degree of conformity of the content of experimental science textbooks of elementary school with the approved goals of the curriculum. Master's thesis in the field of educational sciences-curriculum planning, University of Tehran.
Best, J. (2019). 4 Challenges of Teaching Science in Primary School. https://www.3plearning.com/blog/4-challenges-teaching-science-primary-school/
Bench, S., & Day, T. (2010). The user experience of critical care discharges: a meta-synthesis of qualitative research. International Journal of Nursing Studies, 47 (4): 487-499.
Birkey, M. (2021). Science in the Elementary Classroom. A Literature Review Presented in Partial Fulfillment of the Requirements for the Degree of Master of Education.
Byers, T., Imms, W., Hartnell-Young, E. (2018). Comparative analysis of the impact of traditional versus innovative learning environment on student attitudes and learning outcomes. Studies in Educational Evaluation, 58: 167-177.
Ching, T., Himmelstein, D. S., Beaulieu-Jones, B. K., Kalinin, A. A., Do, B. T., Way, G. P., et al. (2018). Opportunities and obstacles for deep learning in biology and medicine. Journal of the Royal Society Interface, 15(141): [20170387].
Dehghani, M., Amin Khandaghi, M., Jafarithani, H. & Noghanidokht Bahmani, M. (2010). Analyzing the conceptual model in the field of the curriculum, a review of the researches conducted with the approach of designing the model in the curriculum. Basics of Education Research, 1(28): 126-99.
DeVon, H.A., Block, M.E., Moyle-Wright, P., Ernst, D.M., Hayden, S.J., Lazzara, D.J., et al. (2007) A Psychometric Toolbox for Testing Validity and Reliability. Journal of Nursing Scholarship, 39: 155-164.
Docherty-Skippen, S., Karrow, D & Ahmed, G. (2020). Doing Science: Pre-service Teachers’ Attitudes and Confidence Teaching Elementary Science and Technology. A journal of educational research and practice, 29 (1): 24 – 34.
Faraji, A., Kian, M., Abbasi, A. & Hosseini Deshiri, A. (2019). Designing the curriculum framework of experimental sciences based on fostering creativity in the first year of elementary school. Teaching Strategies in Medical Sciences, 13(5): 444-453.
Fathi, M., Saadatmand, Z. & Yousefi, A. (2019). Identifying the components and analyzing the content of the experimental science curriculum of the elementary school based on the fundamental change document. Research in educational systems, 14: 69-81.
Fitzgerald, A & Smith, K. (2016). Science that Matters: Exploring Science Learning and Teaching in Primary Schools. Australian Journal of Teacher Education, 41(4): 63-78.
Fullan, M. (2013). Great to Excellent: Launching the Next Stage of Ontario’s Education Agenda. Retrieved from: http://www.edu.gov.on.ca/eng/document/reports/FullanReport_EN_07.pdf
Fullan, M., Quinn, J., McEachen, J. (2018). Deep Learning: Engage the World Change the World. Kindle Edition.
Fullan, M. (2014). The Principal: Three Keys to Maximizing Impact. San Francisco: Jossey-Bass.
Garmabi, H. (2015). Content analysis of experimental science books of elementary school from the perspective of Guilford's creativity index. Preschool and Elementary Studies Quarterly, 2(5): 17-32.
Gerami, N. & Mirzaian, M. (2017). Content analysis in basic sciences in terms of paying attention to the components of environmental problems. The second knowledge and technology conference of psychology, educational sciences and sociology of Iran.
Ghahremani, J., Hosseini, M. & Pirani, Z. (2019). Examining the place of sustainable development components in the curriculum of experimental sciences of elementary school in Iran and presenting the desired framework and its validation. Educational Management Research, 11(43): 43-54.
Gurbanpour, M. & Mehdipour, S. (2020). Comparison and review of experimental science courses in Iran, England and Japan in terms of content, curriculum, teaching method and evaluation. The first national conference on applied research in education processes
Hadiprayitno, G., Muhlis, G & Kusmiyati, G. (2019). Problems in learning biology for senior high schools in Lombok Island. The International Seminar on Bioscience and Biological Education, 1241: 12-54.
Hazrati, A., Hashemi, A., Qaltash, A & Mashinchi, A. (2019). Designing an applied research curriculum template for elementary school students. Teaching Research, 8(3): 122-97.
Hosseinpour, M. & Eshratifard, A. (2017). Increasing the interest of students in experimental sciences. The second international congress and the third community empowerment conference in the field of humanities and educational studies, Tehran.
Ijadi, Z., Saif Naraghi, M & Naderi, A. (2017). Designing a research-oriented curriculum in the experimental sciences of the sixth grade of elementary school. Research in curriculum planning, 11(2): 49-60.
Jafari Harandi, R. (2017). Content analysis of experimental science textbooks in Iran based on the components of Edward Dubono's thinking. New Educational Thoughts, 14(3): 137-162.
Jahan, C., Kerami, P., Elahi, A. & Najafi Sarasht, A. (2016). Analyzing the content of experimental science textbooks in elementary school from the point of view of attention to learning based on cognitive strategies. Research Approaches in Social Sciences, 10: 1-10.
Jamshidi, F., Qaltash, A. & Salehi, M. (2009). Examining the place of creative thinking in the experimental science curriculum of the fourth and fifth grade of elementary school. The third national conference of creativity, TRIZ, engineering and innovation management of Iran, Tehran.
Javidi Kalate Jafarabadi, I., Behrouz, M. & Jahangerd, F. (2017). Challenges in teaching experimental sciences. National Conference of New World Achievements in Education, Psychology, Law and Social Cultural Studies.
Kadbey, H., Dickson, M., McMinn, M. (2015). Primary Teachers’ Perceived Challenges in Teaching Science in Abu Dhabi Public Schools. Social and Behavioral Sciences, 186(13): 749-757.
Karimi, B., Adib, Y., Mahmoudi, F., Badri Gregari, R. (2017). The place of learning styles in the sixth grade curriculum elements: experimental sciences and social studies. Scientific-Research Quarterly of Teaching Research, 6(2): 115-129.
Kazemzadeh, M., Abbasi, A., Hajihosseinnejad, G. & Ahmadi, G. (2021). Evaluation of the experimental science curriculum of the fourth, fifth and sixth grades based on high-quality documents. Education and Evaluation, 14(54): 13-58.
Keshavarz, R., Mahmoudi, A., Khodayari, R., Redani, F & Iman Dekht, N. (2014). Examining two practical teaching in the method of lesson study. The second international research conference in science and technology.
Li, K., Zhao, J., Kang, Q & Wang, S. (2022). Academician Wen-Rui Hu — Eminent Pioneer and Prominent Leader of Microgravity Science in China. Microgravity Science and Technology, 34 (19): 15-40. DOIhttps://doi.org/10.1007/s12217-022-09934-7
Lin, J., Yen, M., Liang, J., Chiu, M & Guo, C. (2016). Examining the Factors That Influence Students’ Science Learning Processes and Their Learning Outcomes: 30 Years of Conceptual Change Research. Eurasia Journal of Mathematics, Science & Technology Education, 12(9): 2617-2646
Mashallahi Nejad, Z., Jafari Thani, H., Mehram, B., Saidi Rizvani, M. & Jalairi Layin, S. (2018). Analysis of the content of the experimental science course curriculum of the elementary course from the point of view of attention to the components of the environment. Research in Curriculum Planning, 16(2): 122-138.
Masoumi Troyjani, R., Heydarzadeh Zavardehi, A., Kordfirouzjaei, Q & Qolipour, H. (2014). Examining the course of experimental science in elementary school. National Conference of Knowledge and Technology of Educational Sciences, Social Studies and Psychology of Iran, Tehran.
Mateen, M. (2019). Problems faced by students during teaching science at elementary level in private schools in Karachi. Academic Research International, 10(4): 76-89.
McComas, W., Reiss, M., Dempster, E., Chung, Y., Olander, C. (2018). Considering Grand Challenges in Biology Education: Rationales and Proposals for Future Investigations to Guide Instruction and Enhance Student Understanding in the Life Sciences. The American Biology Teacher, 80(7):483-492
Mehrmohammadi, M. (2019). Research based on intellectual practice in the process of curriculum planning, curriculum, viewpoints, approaches and perspectives. Tehran: Samit Publications.
Mehrmohammadi, M. & Hosseini, M. (2018). Curriculum change and implementation. Tehran: Side.
Mozafari, R., Zainabadi, H, Arasteh, H., Abbasian, H. (2018). Designing a new evaluation model of the annual professional performance of primary school teachers in the country. Educational Management and Leadership Research Quarterly, 6(21): 55-82.
Mullis, I. V. S., Martin, M. O., Foy, P., Kelly, D. L., & Fishbein, B. (2020). TIMSS 2019 International Results in Mathematics and Science. Retrieved from Boston College, TIMSS & PIRLS International Study Center website: https://timssandpirls.bc.edu/timss2019/international-results/
National curriculum. (2011). Resolution 745. Supreme Council of the Education System of Iran. .www.medue.ir
Nemati, Sh. Moradavghli, F., Nooralhi, M. & Sameh Ilaz, P. (2014). The role of educational aids in teaching experimental sciences. International Conference on Management and Human Sciences.
Nouri Hasanabadi, K., Sobhani, AS., Hashemzadeh Khorasgani, Gh., Abbaspour Esfadan, A., Javadi, Z. (2020). Validation of the model of improving the quality of education with the approach of Internet of Things and cloud computing in the implementation of school smartness. Bimonthly Scientific-Research Strategies of Education in Medical Sciences, 14(5):285-276.
Paul, U. (2018). Constructivist Approach in Teaching Life Science – an Innovative Practice in Classroom at School level. VIGYAN SIKSHAK (Vol.-2, June-2018), Reg. No. S/IL/86866 of 2011-2012 All India Science Teachers’ Association, W.B., India.
Quinn, J., McEachen, J., Fullan, M., Gardner, M., & Drummy, M. (2019). Dive into deep learning: Tools of engagement. Thousand Oaks, CA: Corwin Press.
Ranjdoost, Sh. (2010). The application of the theory of constructionism in the compilation of middle school experimental science textbooks from the point of view of experts, heads of educational groups and teachers in Tehran. Research in Curriculum Planning, 8(30): 11-27.
Rasool Behi, Sh. Khosravi, D. and Bahadur, H. (2015). Comparative study of the educational system of Iran and Türkiye. World conference of psychology and educational sciences, law and social sciences at the beginning of the third millennium.
Rezaei, M., Ahmadi, G., ImamJome, M & Nasri, P. (2017). Investigating the amount of attention paid to the components of education for sustainable development in the social science curriculum of the elementary school. Journal of Research in Curriculum Planning, 15(30): 28-42.
Richardson, W. (2013). Students first, not stuff. Educational Leadership. 70 (6): 10-14
Ritzhaupt, A & Martin, F. (2014). Development and validation of the educational technologist multimedia competency surveyEducational Technology Research and Development, 62(1): 1-12.
Safaa Saleh, H. (2010). Effect of using the activities of multiple intelligences to learn some basic skills in kata and level of harmonic behavior of the mentally Handicapped, "Acceptors for learning. Procedia Social and Behavioral Sciences 5: 1950–1955
Salehi, K., Bazargan, A., Sadeghi, N. & Shekohiyekta, M. (2014). Representation of teachers' perceptions and lived experiences of possible damages caused by the implementation of descriptive evaluation program in elementary schools. Educational Measurement and Evaluation Studies, 5(9): 59-100.
Samadi, A. (2018). Basics of teaching experimental sciences in elementary school. Tehran: University Research.
Schwichow, M., Brandenburger, M & Wilbers, J. (2022). Analysis of experimental design errors in elementary school: how do students identify, interpret, and justify controlled and confounded experiments. International Journal of Science Education, 44(1): 91-114
Shams, A., Shafii, M., Kayani, M., Arash, J. & Hajian, M. (2015). The effect of descriptive evaluation system on the learning of primary school students. The first international conference of modern researches in the field of educational sciences, psychology and social studies of Iran.
Shekarbaghani, A & Abbasi, M. (2015). Assessing the compliance of teacher training packages with the content and goals of the new experimental science curriculum for the second grade of elementary school, the second national conference on strategies for the development and promotion of science education in Iran.
Soares, B., Campos, M., Thomaz, J., Pereira, G., Roehrs, R. (2016). The importance of experiments in teaching science to elementary school. Revista Monografias Ambientais, 15(2): 1-17
Svendsen, B. (2021). The Nature of Science and Technology in Teacher Education. The Nature of Science and Technology in Teacher Education. DOI: 10.5772/intechopen.95829.
Tajari, T. and Bayani, M. (2018). Designing the curriculum model of experimental science education in elementary school based on Gardner's theory of multiple intelligences. Two scientific quarterly specialized research in elementary education, 1(1): 39-50.
Toloui Kheybari, F., Fahiminejad, A., Tayibi Thani, M. & Mersal, B. (2020). The effect of integrated curriculum on the learning of experimental science and physical education skills of the fifth grade. Educational Leadership and Management Quarterly, 14(2): 73-96.
Valizadeh, F. (2013). Analyzing the content of experimental science textbooks in elementary school according to technological scientific literacy skills. Thesis of the Ministry of Science, Research and Technology, Shahid Bahonar University of Kerman.
Viadero, D & Sparks, S. (2021). 6 Challenges for Science Educators. https://www.edweek.org/teaching-learning/6-challenges-for-science-educators/2021/11
Yaro, I., Salleh, D & Arshad, R. (2018). Constraints of Education Stakeholder Participation in Policy Decision Making in Nigeria. Private involvement in infrastructure development in local authorities in Malaysia.
Zulfaqhari Shire Jin, A., Ankoti, A., Abdullahzadeh, A. & Badri, R. (2017). Investigating the functioning of the evaluation system in experimental sciences of elementary school. National conference of subject-educational knowledge.
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