The Effect of Engineering Design Based Science Teaching on Decision Making, Scientific Creativity and Design Skills of Classroom Teacher Candidates

Elçin Ayaz; Rabia Sarıkaya

doi:10.21891/jeseh.961060

Araştırma Makalesi

Yıl 2021, Cilt: 7 Sayı: 4, 309 - 328, 01.10.2021

Elçin Ayaz Rabia Sarıkaya

https://doi.org/10.21891/jeseh.961060

Öz

Destekleyen Kurum

Gazi Üniversitesi Bilimsel Araştırma Projeleri

Proje Numarası

04 / 2018-03

Teşekkür

Gazi üniversitesi Bilimsel Araştırma Projeleri birimine desteklerinden dolayı teşekkür ederiz.

Kaynakça

Acar, D. (2018). FETEMM eğitiminin ilkokul 4. sınıf öğrencilerinin akademik başarı, eleştirel düşünme ve problem çözme becerisi üzerine etkisi[The effect of STEM education on the academic success, critical thinking and problem solving skills of the elementary 4th grade students]. Doctoral Thesis, Gazi University, Institute of Educational Sciences, Ankara.
Adams, M. (2015). A Cultural historical theoretical perspective of discourse and design in the science classroom. Cultural Studies of Science Education, 10(2), 329-338.
Altan, E. B., Yamak, H., & Kırıkkaya, E. B. (2016). FeTeMM eğitim yaklaşımının öğretmen eğitiminde uygulanmasına yönelik bir öneri: Tasarım temelli fen eğitimi[A Proposal of the STEM Education for Teacher Training: Design Based Science Education]. Trakya Journal of Education, 6(2), 212-232.
Altaş, S. (2018). STEM eğitimi yaklaşımının sınıf öğretmeni adaylarının mühendislik tasarım süreçlerine, mühendislik ve teknoloji algılarına etkisinin incelenmesi[Investigation of the effects of STEM education approach on the perceptions of classroom teaching candidates about engineering design processes and about engineering and technology]. Master Thesis, Muş Alparslan University, Institute of Science, Muş.
Aslan-Tutak, F., Akaygün S., & Tezsezen S. (2017). İşbirlikli FeTeMM (Fen, Teknoloji, Mühendislik, Matematik) eğitimi uygulaması: Kimya ve matematik öğretmen adaylarının FeTeMM farkındalıklarının incelenmesi [Collaboratively Learning to Teach STEM: Changein Participating Preservice Teachers’ Awareness of STEM]. Hacettepe University Journal of Education, 32(4), 794-816.
Batı, K. (2014). Modellemeye dayalı fen eğitiminin etkililiği; öğrencilerin bilimin doğası görüşleri ile eleştirel düşünme becerilerine etkisi[The effectiveness of modeling based elementary science education; It's effects on students? views about nature of science and critical thinking abilities]. Doctoral Thesis, Hacettepe University Institute of Educational Sciences, Ankara.
Bozkurt, E. (2014). Mühendı̇slı̇k tasarım temellı̇ fen eğı̇tı̇mı̇nı̇n fen bı̇lgı̇sı̇ öğretmen adaylarinin karar verme becerı̇sı̇, bı̇lı̇sel süreç becerı̇lerı̇ ve sürece yönelı̇k algılarına etkı̇sı̇[The effect of engineering design based science instruction on science teacher candidates' decision making skills, science process skills and perceptions about the process]. Doctoral Thesis, Gazi University, Institute of Educational Sciences, Ankara.
Breiner, J. M., Harkness, S. S., Johnson, C. C., & Koehler, C. M. (2012). What is STEM? A discussion about conceptions of STEM in education and partnerships. School Science and Mathematics, 112(1), 3-11.
Brophy, S., Klein, S., Portsmore, M., & Rogers, C. (2008). Advancing engineering education in P‐12 classrooms. Journal of Engineering Education, 97(3), 369-387.
Brown, C., Taylor, C., & Ponambalum, L. (2016). Using design-based research to improve the lesson study approach to professional development in camden (London). London Review of Education, 14(2), 4-24.
Büyüköztürk, S., Kılıç Çakmak, E., Akgün, Ö. E., Karadeniz, S., & Demirel, F. (2012). Bilimsel Araştırma Yöntemleri[Scientific Research Methods]. (18nd Ed.). Ankara: Pegem Academy.
Bybee, R. W., (2010). Advancing STEM Education. A 2020 Vision. Technology and Engineering Teacher, 70(1) 30-35. Christensen, L. B. Johnson, B., & Turner, L. A. (2015). Araştırma yöntemleri: Desen ve analiz[Research methods: Pattern and analysis]. Ankara: Anı Publishing.
Cohen, J. C. (1988). Statistical power analysis for the behavioral sciences (2nd Ed.). Hillsdale, NJ: Lawrence Earlbaum Associates.
Çorlu, M. S., & Çallı, E. (2017). STEM kuram ve uygulamalarıyla fen, teknoloji, mühendislik ve matematik eğitimi [Science, technology, engineering and mathematics education with STEM theory and applications]. İstanbul: Pusula Publishing.
Dağlıoğlu, H. E. (2010). Yaratıcılık, hayal gücü ve zekâ ilişkisi [Creativity, imagination and intelligence]. E. Çelebi Öncü (Ed.) Erken çocukluk döneminde yaratıcılık ve geliştirilmesi[Creativity and development in early childhood] in (s. 48-82). Ankara: Pegem Academy.
DiFrancesca, D., Lee, C., & McIntyre, E. (2014). Where is the" E" in STEM for young children? engineering design education in an elementary teacher preparation program. Issues in Teacher Education, 23(1), 49-64.
Drake, S. M., & Burns, R. C. (2004). Meeting standards through integrated curriculum. USA: ASCD.
Dym, C. L., Wood, W. H., & Scott, M. J. (2002). Rank ordering engineering designs: pairwise comparison charts and Borda counts. Research in Engineering Design, 13(4), 236-242.
English, L. D., & King, D. T. (2015). STEM learning through engineering design: fourthgrade students’ investigations in aerospace. International Journal of STEM Education, 2(1), 14.
Ercan, S. (2014). Fen eğitiminde mühendislik uygulamalarının kullanımı: tasarım temelli fen eğitimi[The use of engineering applications in science education: design based science education]. Necatibey Faculty of Education, Electronic Journal of Science and Mathematics Education (EFMED),9(1), 128-164.
Eroğlu, S., & Bektaş, O. (2016). STEM eğitimi almış fen bilimleri öğretmenlerinin STEM temelli ders etkinlikleri hakkındaki görüşleri[Ideas of Science Teachers took STEM Education about STEM based Activities]. Journal of Qualitative Research in Education, 4(3), 43-67.
Fortus, D., Dershimer, R. C., Krajcik, J. S., Marx, R. W., ve Mamlok-Naaman, R. (2004). Design-based science and student learning. Journal of Research in Science Teaching, 41(10), 1081-1110.
Genek, S. (2018). STEM eğitimi uygulanan ilkokul öğrencilerinin bilimsel yaratıcılık düzeylerinin incelenmesi[Investigation of scientific creativity levels of elementary school students who enrolled in a STEM program]. Master Thesis, Bahçeşehir University, Institute of Educational Sciences, İstanbul.
Gencer, A. S. (2017). Fen eğitiminde bilim ve mühendislik uygulaması: Fırıldak Etkinliği. Journal of Inquiry Based Activities, 5(1), 1-19.
Gravetter, F. L., & Wallnau, L. B. (2013). Statistics for the behavioral sciences (9th ed.). Belmont, CA: Wadsworth.
Grosul, M. (2010). In search of the creative scientific personality. Master’s Thesis, San Jose State University The Faculty of the Department of Psychology, California.
Hacıoğlu, Y. (2017). Fen, teknoloji, mühendislik ve matematik (STEM) eğitimi temelli etkinliklerin fen bilgisi öğretmen adaylarının eleştirel ve yaratıcı düşünme becerilerine etkisi[The effect of science, technology, engineering and mathematics (STEM) education based activities on prospective science teachers' critical and creative thinking skills]. Doctoral Thesis, Gazi University, Institute of Educational Sciences, Ankara.
Hu, W., & Adey, P. (2002). A scientific creativity test for secondary school students. International Journal of Science Education, 24(4), 389-403.
Hynes, M., Portsmore, M., Dare, E., Milto, E., Rogers, C., Hammer, D., & Carberry, A. (2011). Infusing engineering design into high school STEM courses. Publications, 1-7.URL address: https://digitalcommons.usu.edu/ncete_publications/165.
Jonassen, D. H. (2011). Design problems for secondary students. National Center for Engineering and Technology Education.
Kadayıfçı, H. (2008). Yaratıcı düşünmeye dayalı öğretim modelinin öğrencilerin maddelerin ayrılması ile ilgili kavramları anlamalarına ve bilimsel yaratıcılıklarına etkisi[The effect of an instructional model based on creative thinking on students' conceptual understanding of separation of matter subject and their scientific creativity]. Doctoral Thesis, Gazi University, Institute of Educational Sciences, Ankara.
Kaptan, F., & Kuşakcı, F. (2002). Fen öğretiminde beyin fırtınası tekniğinin öğrenci yaratıcılığına etkisi [The effect of brainstorming technique on student creativity in science teaching]. V. National Science and Mathematics Education Congress Proceedings,197-202.
Karahan, E., Canbazoglu-Bilici, S., & Unal, A. (2015). Integration of media design processes in science, technology, engineering, and mathematics (STEM) education. Eurasian Journal of Educational Research, 60, 221-240.
Karışan, D., & Yurdakul, Y. (2017). Mikroişlemci destekli fen-teknoloji-mühendislik matematik (STEM) Uygulamalarının 6. Sınıf Öğrencilerinin Bu Alanlara Yönelik Tutumlarına Etkisi[The Effects of Microprocessors Based Science Technology Engineering and Mathemetics (STEM) Investigations on 6th Grade Students’ Attitudes Towards These Subject Areas]. Adnan Menderes University Faculty of Education Journal of Educational Sciences, 8(1), 37-52.
Kaya, M. E. (2018). STEM uygulamalarının fen bilgisi öğretmen adayları öz düzenleme ve yaratıcılığına etkisi [The impact on the creativity and self-educational skills of student education teacher candidates]. Master Thesis, Erzincan Binali Yıldırım University, Institute of Science, Erzincan.
Kayser, T. A. (2011). Building team power: how to unleash the collaborative genius of teams for increased engagement, productivity, and results. NY: McGraw-Hill.
Koçak, B. (2019). Fen bilimleri, matematik ve sınıf öğretmen adaylarının FeTeMM öğretimine ilişkin yönelimleri[Science, mathematics and primary preservice teachers' intention on STEM teaching]. Master Thesis, Akdeniz University, Institute of Educational Sciences, Antalya.
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The Effect of Engineering Design Based Science Teaching on Decision Making, Scientific Creativity and Design Skills of Classroom Teacher Candidates

Yıl 2021, Cilt: 7 Sayı: 4, 309 - 328, 01.10.2021

Elçin Ayaz Rabia Sarıkaya

https://doi.org/10.21891/jeseh.961060

Öz

This study aims to examine the effects of engineering design-based science teaching (EDBST) on classroom teacher candidates’ decision-making skills, scientific creativity and engineering design-based process skills. The random design of the quantitative approach with a pretest-posttest control group was used in the study. The study group consists of 60 teacher candidates convenient sampling method and studying at the Faculty of Education Department of Classroom Education of a state university in Ankara in the 2017-2018 academic year. The implementations of the study continued in the Science and Technology Laboratory Applications-II course for 14 weeks in accordance with the content integration of STEM. Study data were calculated through dependent and independent groups t-test, one-way repeated measures ANOVA and multivariate variance analysis (MANOVA). When the results of the study were examined, it was seen that the skills of the classroom teacher candidates, where the courses were taught with engineering design-based science teaching, developed positively.

Anahtar Kelimeler

Engineering design-based science teaching, Classroom teacher candidates, Decision-making skill, Scientific creativity

Proje Numarası

04 / 2018-03

Kaynakça

Acar, D. (2018). FETEMM eğitiminin ilkokul 4. sınıf öğrencilerinin akademik başarı, eleştirel düşünme ve problem çözme becerisi üzerine etkisi[The effect of STEM education on the academic success, critical thinking and problem solving skills of the elementary 4th grade students]. Doctoral Thesis, Gazi University, Institute of Educational Sciences, Ankara.
Adams, M. (2015). A Cultural historical theoretical perspective of discourse and design in the science classroom. Cultural Studies of Science Education, 10(2), 329-338.
Altan, E. B., Yamak, H., & Kırıkkaya, E. B. (2016). FeTeMM eğitim yaklaşımının öğretmen eğitiminde uygulanmasına yönelik bir öneri: Tasarım temelli fen eğitimi[A Proposal of the STEM Education for Teacher Training: Design Based Science Education]. Trakya Journal of Education, 6(2), 212-232.
Altaş, S. (2018). STEM eğitimi yaklaşımının sınıf öğretmeni adaylarının mühendislik tasarım süreçlerine, mühendislik ve teknoloji algılarına etkisinin incelenmesi[Investigation of the effects of STEM education approach on the perceptions of classroom teaching candidates about engineering design processes and about engineering and technology]. Master Thesis, Muş Alparslan University, Institute of Science, Muş.
Aslan-Tutak, F., Akaygün S., & Tezsezen S. (2017). İşbirlikli FeTeMM (Fen, Teknoloji, Mühendislik, Matematik) eğitimi uygulaması: Kimya ve matematik öğretmen adaylarının FeTeMM farkındalıklarının incelenmesi [Collaboratively Learning to Teach STEM: Changein Participating Preservice Teachers’ Awareness of STEM]. Hacettepe University Journal of Education, 32(4), 794-816.
Batı, K. (2014). Modellemeye dayalı fen eğitiminin etkililiği; öğrencilerin bilimin doğası görüşleri ile eleştirel düşünme becerilerine etkisi[The effectiveness of modeling based elementary science education; It's effects on students? views about nature of science and critical thinking abilities]. Doctoral Thesis, Hacettepe University Institute of Educational Sciences, Ankara.
Bozkurt, E. (2014). Mühendı̇slı̇k tasarım temellı̇ fen eğı̇tı̇mı̇nı̇n fen bı̇lgı̇sı̇ öğretmen adaylarinin karar verme becerı̇sı̇, bı̇lı̇sel süreç becerı̇lerı̇ ve sürece yönelı̇k algılarına etkı̇sı̇[The effect of engineering design based science instruction on science teacher candidates' decision making skills, science process skills and perceptions about the process]. Doctoral Thesis, Gazi University, Institute of Educational Sciences, Ankara.
Breiner, J. M., Harkness, S. S., Johnson, C. C., & Koehler, C. M. (2012). What is STEM? A discussion about conceptions of STEM in education and partnerships. School Science and Mathematics, 112(1), 3-11.
Brophy, S., Klein, S., Portsmore, M., & Rogers, C. (2008). Advancing engineering education in P‐12 classrooms. Journal of Engineering Education, 97(3), 369-387.
Brown, C., Taylor, C., & Ponambalum, L. (2016). Using design-based research to improve the lesson study approach to professional development in camden (London). London Review of Education, 14(2), 4-24.
Büyüköztürk, S., Kılıç Çakmak, E., Akgün, Ö. E., Karadeniz, S., & Demirel, F. (2012). Bilimsel Araştırma Yöntemleri[Scientific Research Methods]. (18nd Ed.). Ankara: Pegem Academy.
Bybee, R. W., (2010). Advancing STEM Education. A 2020 Vision. Technology and Engineering Teacher, 70(1) 30-35. Christensen, L. B. Johnson, B., & Turner, L. A. (2015). Araştırma yöntemleri: Desen ve analiz[Research methods: Pattern and analysis]. Ankara: Anı Publishing.
Cohen, J. C. (1988). Statistical power analysis for the behavioral sciences (2nd Ed.). Hillsdale, NJ: Lawrence Earlbaum Associates.
Çorlu, M. S., & Çallı, E. (2017). STEM kuram ve uygulamalarıyla fen, teknoloji, mühendislik ve matematik eğitimi [Science, technology, engineering and mathematics education with STEM theory and applications]. İstanbul: Pusula Publishing.
Dağlıoğlu, H. E. (2010). Yaratıcılık, hayal gücü ve zekâ ilişkisi [Creativity, imagination and intelligence]. E. Çelebi Öncü (Ed.) Erken çocukluk döneminde yaratıcılık ve geliştirilmesi[Creativity and development in early childhood] in (s. 48-82). Ankara: Pegem Academy.
DiFrancesca, D., Lee, C., & McIntyre, E. (2014). Where is the" E" in STEM for young children? engineering design education in an elementary teacher preparation program. Issues in Teacher Education, 23(1), 49-64.
Drake, S. M., & Burns, R. C. (2004). Meeting standards through integrated curriculum. USA: ASCD.
Dym, C. L., Wood, W. H., & Scott, M. J. (2002). Rank ordering engineering designs: pairwise comparison charts and Borda counts. Research in Engineering Design, 13(4), 236-242.
English, L. D., & King, D. T. (2015). STEM learning through engineering design: fourthgrade students’ investigations in aerospace. International Journal of STEM Education, 2(1), 14.
Ercan, S. (2014). Fen eğitiminde mühendislik uygulamalarının kullanımı: tasarım temelli fen eğitimi[The use of engineering applications in science education: design based science education]. Necatibey Faculty of Education, Electronic Journal of Science and Mathematics Education (EFMED),9(1), 128-164.
Eroğlu, S., & Bektaş, O. (2016). STEM eğitimi almış fen bilimleri öğretmenlerinin STEM temelli ders etkinlikleri hakkındaki görüşleri[Ideas of Science Teachers took STEM Education about STEM based Activities]. Journal of Qualitative Research in Education, 4(3), 43-67.
Fortus, D., Dershimer, R. C., Krajcik, J. S., Marx, R. W., ve Mamlok-Naaman, R. (2004). Design-based science and student learning. Journal of Research in Science Teaching, 41(10), 1081-1110.
Genek, S. (2018). STEM eğitimi uygulanan ilkokul öğrencilerinin bilimsel yaratıcılık düzeylerinin incelenmesi[Investigation of scientific creativity levels of elementary school students who enrolled in a STEM program]. Master Thesis, Bahçeşehir University, Institute of Educational Sciences, İstanbul.
Gencer, A. S. (2017). Fen eğitiminde bilim ve mühendislik uygulaması: Fırıldak Etkinliği. Journal of Inquiry Based Activities, 5(1), 1-19.
Gravetter, F. L., & Wallnau, L. B. (2013). Statistics for the behavioral sciences (9th ed.). Belmont, CA: Wadsworth.
Grosul, M. (2010). In search of the creative scientific personality. Master’s Thesis, San Jose State University The Faculty of the Department of Psychology, California.
Hacıoğlu, Y. (2017). Fen, teknoloji, mühendislik ve matematik (STEM) eğitimi temelli etkinliklerin fen bilgisi öğretmen adaylarının eleştirel ve yaratıcı düşünme becerilerine etkisi[The effect of science, technology, engineering and mathematics (STEM) education based activities on prospective science teachers' critical and creative thinking skills]. Doctoral Thesis, Gazi University, Institute of Educational Sciences, Ankara.
Hu, W., & Adey, P. (2002). A scientific creativity test for secondary school students. International Journal of Science Education, 24(4), 389-403.
Hynes, M., Portsmore, M., Dare, E., Milto, E., Rogers, C., Hammer, D., & Carberry, A. (2011). Infusing engineering design into high school STEM courses. Publications, 1-7.URL address: https://digitalcommons.usu.edu/ncete_publications/165.
Jonassen, D. H. (2011). Design problems for secondary students. National Center for Engineering and Technology Education.
Kadayıfçı, H. (2008). Yaratıcı düşünmeye dayalı öğretim modelinin öğrencilerin maddelerin ayrılması ile ilgili kavramları anlamalarına ve bilimsel yaratıcılıklarına etkisi[The effect of an instructional model based on creative thinking on students' conceptual understanding of separation of matter subject and their scientific creativity]. Doctoral Thesis, Gazi University, Institute of Educational Sciences, Ankara.
Kaptan, F., & Kuşakcı, F. (2002). Fen öğretiminde beyin fırtınası tekniğinin öğrenci yaratıcılığına etkisi [The effect of brainstorming technique on student creativity in science teaching]. V. National Science and Mathematics Education Congress Proceedings,197-202.
Karahan, E., Canbazoglu-Bilici, S., & Unal, A. (2015). Integration of media design processes in science, technology, engineering, and mathematics (STEM) education. Eurasian Journal of Educational Research, 60, 221-240.
Karışan, D., & Yurdakul, Y. (2017). Mikroişlemci destekli fen-teknoloji-mühendislik matematik (STEM) Uygulamalarının 6. Sınıf Öğrencilerinin Bu Alanlara Yönelik Tutumlarına Etkisi[The Effects of Microprocessors Based Science Technology Engineering and Mathemetics (STEM) Investigations on 6th Grade Students’ Attitudes Towards These Subject Areas]. Adnan Menderes University Faculty of Education Journal of Educational Sciences, 8(1), 37-52.
Kaya, M. E. (2018). STEM uygulamalarının fen bilgisi öğretmen adayları öz düzenleme ve yaratıcılığına etkisi [The impact on the creativity and self-educational skills of student education teacher candidates]. Master Thesis, Erzincan Binali Yıldırım University, Institute of Science, Erzincan.
Kayser, T. A. (2011). Building team power: how to unleash the collaborative genius of teams for increased engagement, productivity, and results. NY: McGraw-Hill.
Koçak, B. (2019). Fen bilimleri, matematik ve sınıf öğretmen adaylarının FeTeMM öğretimine ilişkin yönelimleri[Science, mathematics and primary preservice teachers' intention on STEM teaching]. Master Thesis, Akdeniz University, Institute of Educational Sciences, Antalya.
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Toplam 61 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Özel Eğitim ve Engelli Eğitimi
Bölüm	Articles
Yazarlar	Elçin Ayaz Rabia Sarıkaya 0000-0001-9247-8973
Proje Numarası	04 / 2018-03
Yayımlanma Tarihi	1 Ekim 2021
Yayımlandığı Sayı	Yıl 2021 Cilt: 7 Sayı: 4

Kaynak Göster

APA	Ayaz, E., & Sarıkaya, R. (2021). The Effect of Engineering Design Based Science Teaching on Decision Making, Scientific Creativity and Design Skills of Classroom Teacher Candidates. Journal of Education in Science Environment and Health, 7(4), 309-328. https://doi.org/10.21891/jeseh.961060

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