Organizmalarda bulunan yapı fonksiyon ilişkisi sorgulanarak biyomimikri STEM etkinliği geliştirilmesi
Year 2020,
, 64 - 105, 31.01.2020
Ayşe Savran Gencer
,
Hilmi Doğan
,
Kadir Bilen
Abstract
Doğa bilimlerini anlamada en önemli mihenk taşlarından biri yapı fonksiyonu belirler temasıdır. Diğer taraftan Türkiye'de yakın zamanda revize edilen fen programında ise öğrencilerin feni diğer disiplinlerle bütünleştirerek teoriyi pratiğe ve ürüne dönüştürebilmelerine yardımcı olacak fen ve mühendislik uygulamalarına vurgu yapılırken; doğada ya da tasarlanmış dünyada tekrar eden örüntülere ve yapı ve işlev arasındaki ilişkilere herhangi bir sınıf düzeyinde vurgu yapılmamıştır. Bu açığı kapatmak için çalışmada, beşinci sınıf fen bilimleri dersi Canlılar Dünyası ünitesinde yapı ve fonksiyon ilişkisine dayanan bütünleştirilmiş biyomimikri STEM etkinliği geliştirmek amaçlanmıştır. Bu çalışma, 21 beşinci sınıf öğrencisinin insanlığa ait bir problemi çözmek için organizmalara ait bir yapıyı taklit ederek mühendislik tasarım süreci ile ilgili deneyimlerini aktaran bir durum çalışmasıdır. Çalışmanın çarpıcı bir sonucu ise, öğrencilerin organizmalardaki yapı ve fonksiyon arasındaki tamamlayıcı ilişki yoluyla biyomimikriyi tasarım çözümlerine dahil etmeyi başarabilmeleridir.
References
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- Özçelik, A., & Akgündüz, D. (2018). Evaluation of gifted/talented students’ out-of-school STEM education. Trakya University Journal of Education Faculty, 8(2), 334-351. DOI: 10.24315/trkefd.331579
- Patton, M. Q. (2014). Qualitative evaluation and research methods: Integrating theory and practice. Sage Publications.
- Pauls, S. (2017). Biomimicry a “natural lesson” in STEAM. The STEAM Journal, 3(1). DOI: 10.5642/steam.20170301.33
- Pauw, I., Kandachar, P., Karana,E., Peck, D., & Wever, R. (2010, October 25-29). Nature inspired design: Strategies towards sustainability. Paper presented at Knowledge Collaboration & Learning for Sustainable Innovation: The European Roundtable on Sustainable Consumption and Production (ERSCP) /Environmental Management for Sustainable Universities (EMSU) Conference, Rotterdam, Delft, The Netherlands.
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Developing biomimicry STEM activity by querying the relationship between structure and function in organisms
Year 2020,
, 64 - 105, 31.01.2020
Ayşe Savran Gencer
,
Hilmi Doğan
,
Kadir Bilen
Abstract
The theme that structure determines function is one of the most significant cornerstones in understanding natural sciences. On the other hand, recently revised science curriculum in Turkey has emphasized science and engineering practices to help students be able to converge science with the other disciplines by applying theory into practice and product; but there is not an emphasis on the repeating patterns and relationships between structure and function for natural and built systems at any grades. In order to close this gap, the main objective of this study is to develop an integrated biomimicry STEM activity about the unit of Living Things World at grade five. This paper reported on a case study of 21 fifth-grade students’ gaining experiences about the engineering design process by mimicking a structure from the organisms to solve a human problem. Even more striking result is that students can manage to incorporate biomimicry into their design solutions by the way of complementary relationship between structure and function in organisms.
References
- Aşık, G, Doğança Küçük, Z., Helvacı, B. & Çorlu, M. S. (2017). Integrated teaching project: A sustainable approach to teacher education. Turkish Journal of Education, 6(4), 200-215. DOI: 10.19128/turje.332731
- Aziz, M. S., & El sherif, A. Y. (2016). Biomimicry as an approach for bio-inspired structure with the aid of computation. Alexandria Engineering Journal, 55, 707-714. DOI: 10.1016/j.aej.2015.10.015
- Baran, E., Canbazoğlu-Bilici, S., & Mesutoğlu, C. (2015). Science, technology, engineering, and mathematics (STEM) public service announcement (PSA) development activity. Journal of Inquiry Based Activities, 5(2), 60-69.
- Benyus, J. M. (2002). Biomimicry: Innovation inspired by nature. New York: Harper Collins e-books.
- Biomimicry Institute (2010). What is biomimicry? Retrieved from https://biomimicry.org/what-is-biomimicry-3/
- Bolatlı, Z., & Korucu, A. T. (2018). Secondary school students' feedback on course processing and collaborative learning with web 2.0 tools-supported STEM activities. Bartin University Journal of Faculty of Education, 7(2), 456-478. DOI: 10.14686/buefad.358488
- Bybee, R. W. (2013). The next generation science standards and the life sciences. The Science Teacher, 80(2), 25–32.
- Cohen, Y. H., Reich, Y., & Greenberg, S. (2014). Biomimetics: Structure–function patterns approach. Journal of Mechanical Design, 136(11), 111108-1-111108-11.
- Corlu, M. S., Capraro, R. M. & Capraro, M. M. (2014). Introducing STEM education: Implications for educating our teachers for the age of innovation. Education and Science, 39(171), 74-85.
- Creswell, J. W. (2014). Research design: Qualitative, quantitative, and mixed methods approaches (4th ed). Thousand Oaks, CA: Sage.
- Duban, N., Aydoğdu, B., & Kolsuz, S. (2018). STEAM implementations for elementary school students in Turkey. Journal of STEM Arts, Crafts, and Constructions, 3(2), 41-58.
- Duschl, R. A. (2012). The second dimension-crosscutting concepts. Retrieved from http://static.nsta.org/ngss/resources/201202_Framework-Duschl.pdf
- Ergün, A., & Külekçi, E. (2019). The effect of problem-based STEM education on the perception of 5th grade students of engineering, engineers and technology. Pedagogical Research, 4(3). DOI: 10.29333/pr/5842
- Gardner, G. E. (2012). Using biomimicry to engage students in a design-based learning activity. The American Biology Teacher, 74(3), 182-184.
- Guzey, S.S., Tank, K., Wang, H., Roehrig, G., & Moore, T. (2014). A high-quality professional development for teachers of grades 3–6 for implementing engineering into classrooms. School Science and Mathematics, 114(3), 139-149. DOI: 10.1111/ssm.12061
- Hmelo, C. E., Holton, D. L., & Kolodner, J. L. (2000). Designing to learn about complex systems. Journal of the Learning Sciences, 9(3), 247–298. DOI: 10.1207/S15327809JLS0903
- Hmelo-Silver, C. E., Marathe, S., & Liu, L. (2007). Fish swim, rocks sit, and lungs breathe: Expert–novice understanding of complex systems. Journal of the Learning Sciences, 16(3), 307-331. DOI: 10.1080/10508400701413401
- Hmelo-Silver, C. E., Jordan, R., Liu, L., Gray, S., Demeter, M., Rugaber, S., & Goel, A. (2008). Focusing on function: Thinking below the surface of complex natural systems. Science Scope, 31(9), 27–35.
- Hwang, J., Jeong, Y., Park, J.M., Lee, K. H., Hong, J. W., & Choi, J. (2015). Biomimetics: Forecasting the future of science, engineering, and medicine. International Journal of Nanomedicine, 10, 5701–5713.
- Karakaya, F., Yantırı, H., Yılmaz, G., & Yılmaz M. (2019). Determination of primary school students' views about STEM activities: Example of 4th grade. International Journal of Turkish Education Sciences, 7(13), 1-14.
- Keçeci, G., Alan, B., & Kırbağ Zengin, F. (2017). STEM education practices with 5th grade students [Special issue]. Ahi Evran University Journal of Kırşehir Educational Faculty, 18, 1-17.
- Kohn, K.P., Underwood, S. M., & Cooper, M. M. (2018). Connecting structure-property and structure-function relationships across the disciplines of chemistry and biology: Exploring student perceptions. CBE-Life Sciences Education, 17(2). DOI: 10.1187/cbe.18-01-0004
- Lederman, N. G. (2019). Illinois institute of technology college of science/bird activity. Retrieved from https://science.iit.edu/sites/science/files/elements/mse/hstp/pdfs/Scenario-Birdactivity.pdf.
- Massachusetts Department of Education. (2006). Massachusetts science and technology/engineering curriculum framework. Retrieved from http://www.doe.mass.edu/frameworks/scitech/1006.doc
- Ministry of National Education. (2018). Elementary and middle school (3, 4, 5, 6, 7, and 8th grades) science curriculum. Ankara: Board of Education and Training.
- Moore, T.J., Stohlmann, M.S., Wang, H.H., Tank, K.M., Glancy, A.W., & Roehrig, G.H. (2014). Implementation and integration of engineering in K-12 STEM education. In S. Purzer, J. Strobel, & M. Cardella (Eds.), Engineering in precollege settings: Research into practice (pp. 35–60). West Lafayette, IN: Purdue Press.
- National Research Council. (2012). A framework for K–12 science education: Practices, crosscutting concepts, and core ideas. Washington, DC: National Academies Press.
- NGSS Lead States. (2013a). Next generation science standards: For states by states. Washington, DC: The National Academies Press.
- NGSS Lead States. (2013b). Next generation science standards: For states by states (Vol:2 Appendixes). Washington, DC: The National Academies Press.
- Öner, A. T., Navruz, B., Biçer, A., Peterson, C. A., Capraro, R.M., & Capraro, M.M. (2014). T-STEM academies’ academic performance examination by education service centers: A Longitudinal Study. Turkish Journal of Education, 3(4), 40-51.
- Özcan, H., & Koca, E. (2019). The impact of teaching the subject “pressure” with STEM approach on the academic achievements of the secondary school 7th grade students and their attitudes towards STEM. Education and Science, 44, 201-227. DOI: 10.15390/EB.2019.7902
- Özçelik, A., & Akgündüz, D. (2018). Evaluation of gifted/talented students’ out-of-school STEM education. Trakya University Journal of Education Faculty, 8(2), 334-351. DOI: 10.24315/trkefd.331579
- Patton, M. Q. (2014). Qualitative evaluation and research methods: Integrating theory and practice. Sage Publications.
- Pauls, S. (2017). Biomimicry a “natural lesson” in STEAM. The STEAM Journal, 3(1). DOI: 10.5642/steam.20170301.33
- Pauw, I., Kandachar, P., Karana,E., Peck, D., & Wever, R. (2010, October 25-29). Nature inspired design: Strategies towards sustainability. Paper presented at Knowledge Collaboration & Learning for Sustainable Innovation: The European Roundtable on Sustainable Consumption and Production (ERSCP) /Environmental Management for Sustainable Universities (EMSU) Conference, Rotterdam, Delft, The Netherlands.
- Stevens, L., De Vries, M.J., Bos, M.J.W., & Kopnina, H. (2019). Biomimicry design education essentials. In W. Sandro, S. Benjamin, & Gon (Eds.), Proceedings of the 22nd International Conference on Engineering Design (ICED19). (pp. 459-468). Delft, The Netherlands, 5-8 August. DOI:10.1017/dsi.2019.49
- Tekerek, M., & Tekerek, B. (2018). Integrated instructional material and development process. Turkish Journal of Education, 7(3), 156-168. DOI:10.19128/turje.362491.
- Wendell, K., Connolly, K., Wright, C., Jarvin, L., Rogers, C., Barnett, M., & Marulcu, I. (2010, October). Incorporating engineering design into elementary school science curricula. Paper presented at the Annual Meeting of American Society for Engineering Education, Singapore.
- Yakışan, M., & Velioğlu, D. (2019). The analysis of the drawings of the 4th grade students towards biomimicry perceptions. Gazi University Journal of Gazi Educational Faculty (GUJGEF), 39(2), 727- 753. DOI: 10.17152/gefad.547807
- Yıldırım, B. (2019). The opinions of pre-service science teachers about biomimicry practices in STEM education. Gazi University Journal of Gazi Educational Faculty (GUJGEF), 39(1), 63-90.
- Yildirim, A., & Simsek, H. (2006). Qualitative research methods in social sciences (5th ed.). Ankara: Seçkin Publications.