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Implementation of Middle School Mathematics Teachers’ Origami-Based Lessons and Their Views about Student Learning

Yıl 2019, Cilt: 38 Sayı: 2, 154 - 171, 24.12.2019

Tuğba Uygun

Öz

In the case
study, the occurrence of student learning types in the origami-based
mathematics classrooms was investigated based on teachers’ teaching. In the
quantitative part of the study, the teaching of middle school mathematics
teachers (MSMT) were observed to compare the different learning types based on
their levels of constructivist-based teaching performances. Qualitative data
were collected through interviews, observations, and field notes in
origami-based mathematics lessons and then analyzed. The findings of the study
illustrated that the existence of learning types represented by students in the
origami-based lessons differentiated based on the teachers’ levels of
constructivist-based teaching.

Anahtar Kelimeler

constructivist-based teaching learning types middle school mathematics teachers origami

Kaynakça

  • Arıcı, S. & Aslan-Tutak, F. (2015). The effect of origami-based instruction on spatial visualization, geometry achievement, and geometric reasoning. International Journal of Science and Mathematics Education, 13, 179-200.
  • Boakes, N. J. (2006). The effects of origami lessons on students’ spatial visualization skills and achievement levels in a seventh-grade mathematics classroom. Unpublished doctoral dissertation, Temple University.
  • Boakes, N. J. (2008). Origami-mathematics lessons: Paper folding as a teaching tool. Mathitudes, 1(1), 1-9.
  • Boakes, N. J. (2009). Origami instruction in the middle school mathematics classroom: Its impact on spatial visualization and geometry knowledge of students. Research in Middle Level Education Online, 32(7), 1-12.
  • Borg, W. R. & Gall, M. D. (1989). Educational Research. New York: Longman.
  • Boulter, D. R. (1992). The effects of instruction on spatial ability and geometry performance. Unpublished master’s thesis. Queen’s University, Kingston, Ontario, Canada.
  • Boyraz, S. (2008). The effects of computer based instruction on seventh grade students’ spatial ability, attitudes toward geometry, mathematics and technology. Unpublished master’s thesis. Middle East Technical University,Ankara, Turkey.
  • Chen, K. (2006). Math in motion: origami math for students who are deaf and hard of hearing. Journal of Deaf Studies and Deaf Education, 11(2), 262-266. Cipra, B. A. (2001). In the Fold: Origami Meets Mathematics. SIAM News, 34 (8), 1-4.
  • Coad, L. (2006). Paper folding in the middle school classroom and beyond. Australian Mathematics Teacher, 62(1), 6-13.
  • Cakmak, S, Isiksal, M. & Koc, Y. (2014). Investigating effect of origami-based instruction on elementary students’ spatial skills and perceptions. The Journal of Educational Research, 107(1), 59-68.
  • Demaine, E. (2004). Folding and Unfolding in Computational Geometry. http://courses.csail.mit.edu/6.885/fall04. Accessed at 24 March 2018.
  • Fennema, E., & Franke, M. L. (1992). Teachers’ knowledge and its impact. In: Grouws DA (ed.). Handbook of research on mathematics teaching and learning. New York: Macmillian/NCTM.
  • Gay, G. (2000). Culturally responsive teaching: Theory, research, and practice. New York: Teachers College Press.
  • Graham, J. K. & Fennell, F. S. (2001). Principles and Standards for School Mathematics and Teacher Education: Preparing and Empowering Teachers. School Science and Mathematics, 101 (6), 319-327.
  • Jones, A. (2010). Secondary school mathematics teachers’ views of manipulatives and their use in the classroom. M.A. thesis, University of Ottawa.
  • Key, P. & Stillman, J. (2009). Teaching Primary Art and Design (Achieving QTS). Exeter:Learning Matters Ltd.
  • Lang, R. (2001). Origami, Science and Applications. In T. Hull (ed.), Origami 3: Third International Meeting of Origami, Science, Mathematics, and Education, A. K. Peters, Canada.
  • MacIsaac, D., & Falconer, K. (2001). Using the reform teacher observation protocol (RTOP) as a catalyst for self-reflective change in secondary science teaching. Paper presented at the meeting of the American Association of Physics Techers, Rochester, NY.
  • Miura, K. (2001). The Application of Origami Science to Map and Atlas Design. In T. Hull (ed.), Origami 3: Third International Meeting of Origami, Science, Mathematics, and Education, A. K. Peters, Canada.
  • Olkun, S. (2003). Making Connections: Improving Spatial Abilities with Engineering Drawing Activities. International Journal of Mathematics Teaching and Learning, 1-10.
  • Stake, R. E. (1995). The art of case study research. Thousand Oaks, CA: Sage.
  • Sze, S. (2005). Constructivism and the ancient art of origami. Proceeding of the Academy of Creativity and Innovation, Memphis, 2(1), 5-9.
  • Temiz, T. & Topcu, M. S. (2014). Translation and validation of the Reformed Teaching Observation Protocol into Turkish. İlköğretim Online. 13 (3), 1122-1134.
  • Tuğrul, B., & Kavici, M. (2002). Kağıt katlama sanatı ve öğrenme. Pamukkale Üniversitesi Eğitim Fakültesi Dergisi, 1(11).
  • Turner-Bisset, R. (2001). Expert teaching: knowledge and pedagogy to lead the profession. London: David Fulton.
  • Valentini, C. (2005). The Use of Origami in Primary EFL Teaching, http://www.lamaestra.it/origami/origami2.htm. Accessed at 17 May 2018.
  • Wu, J. (2002). What is Origami?. http://www.origami.as/Info/intro.php. Accessed at 23 June 2018.
  • Wu, J. (2006). Origami: A Brief History of the Ancient Art of Paper Folding, http://www.origami.as/Info/history.php. Accessed at 15 June 2018.

Yıl 2019, Cilt: 38 Sayı: 2, 154 - 171, 24.12.2019

Tuğba Uygun

Öz

Kaynakça

  • Arıcı, S. & Aslan-Tutak, F. (2015). The effect of origami-based instruction on spatial visualization, geometry achievement, and geometric reasoning. International Journal of Science and Mathematics Education, 13, 179-200.
  • Boakes, N. J. (2006). The effects of origami lessons on students’ spatial visualization skills and achievement levels in a seventh-grade mathematics classroom. Unpublished doctoral dissertation, Temple University.
  • Boakes, N. J. (2008). Origami-mathematics lessons: Paper folding as a teaching tool. Mathitudes, 1(1), 1-9.
  • Boakes, N. J. (2009). Origami instruction in the middle school mathematics classroom: Its impact on spatial visualization and geometry knowledge of students. Research in Middle Level Education Online, 32(7), 1-12.
  • Borg, W. R. & Gall, M. D. (1989). Educational Research. New York: Longman.
  • Boulter, D. R. (1992). The effects of instruction on spatial ability and geometry performance. Unpublished master’s thesis. Queen’s University, Kingston, Ontario, Canada.
  • Boyraz, S. (2008). The effects of computer based instruction on seventh grade students’ spatial ability, attitudes toward geometry, mathematics and technology. Unpublished master’s thesis. Middle East Technical University,Ankara, Turkey.
  • Chen, K. (2006). Math in motion: origami math for students who are deaf and hard of hearing. Journal of Deaf Studies and Deaf Education, 11(2), 262-266. Cipra, B. A. (2001). In the Fold: Origami Meets Mathematics. SIAM News, 34 (8), 1-4.
  • Coad, L. (2006). Paper folding in the middle school classroom and beyond. Australian Mathematics Teacher, 62(1), 6-13.
  • Cakmak, S, Isiksal, M. & Koc, Y. (2014). Investigating effect of origami-based instruction on elementary students’ spatial skills and perceptions. The Journal of Educational Research, 107(1), 59-68.
  • Demaine, E. (2004). Folding and Unfolding in Computational Geometry. http://courses.csail.mit.edu/6.885/fall04. Accessed at 24 March 2018.
  • Fennema, E., & Franke, M. L. (1992). Teachers’ knowledge and its impact. In: Grouws DA (ed.). Handbook of research on mathematics teaching and learning. New York: Macmillian/NCTM.
  • Gay, G. (2000). Culturally responsive teaching: Theory, research, and practice. New York: Teachers College Press.
  • Graham, J. K. & Fennell, F. S. (2001). Principles and Standards for School Mathematics and Teacher Education: Preparing and Empowering Teachers. School Science and Mathematics, 101 (6), 319-327.
  • Jones, A. (2010). Secondary school mathematics teachers’ views of manipulatives and their use in the classroom. M.A. thesis, University of Ottawa.
  • Key, P. & Stillman, J. (2009). Teaching Primary Art and Design (Achieving QTS). Exeter:Learning Matters Ltd.
  • Lang, R. (2001). Origami, Science and Applications. In T. Hull (ed.), Origami 3: Third International Meeting of Origami, Science, Mathematics, and Education, A. K. Peters, Canada.
  • MacIsaac, D., & Falconer, K. (2001). Using the reform teacher observation protocol (RTOP) as a catalyst for self-reflective change in secondary science teaching. Paper presented at the meeting of the American Association of Physics Techers, Rochester, NY.
  • Miura, K. (2001). The Application of Origami Science to Map and Atlas Design. In T. Hull (ed.), Origami 3: Third International Meeting of Origami, Science, Mathematics, and Education, A. K. Peters, Canada.
  • Olkun, S. (2003). Making Connections: Improving Spatial Abilities with Engineering Drawing Activities. International Journal of Mathematics Teaching and Learning, 1-10.
  • Stake, R. E. (1995). The art of case study research. Thousand Oaks, CA: Sage.
  • Sze, S. (2005). Constructivism and the ancient art of origami. Proceeding of the Academy of Creativity and Innovation, Memphis, 2(1), 5-9.
  • Temiz, T. & Topcu, M. S. (2014). Translation and validation of the Reformed Teaching Observation Protocol into Turkish. İlköğretim Online. 13 (3), 1122-1134.
  • Tuğrul, B., & Kavici, M. (2002). Kağıt katlama sanatı ve öğrenme. Pamukkale Üniversitesi Eğitim Fakültesi Dergisi, 1(11).
  • Turner-Bisset, R. (2001). Expert teaching: knowledge and pedagogy to lead the profession. London: David Fulton.
  • Valentini, C. (2005). The Use of Origami in Primary EFL Teaching, http://www.lamaestra.it/origami/origami2.htm. Accessed at 17 May 2018.
  • Wu, J. (2002). What is Origami?. http://www.origami.as/Info/intro.php. Accessed at 23 June 2018.
  • Wu, J. (2006). Origami: A Brief History of the Ancient Art of Paper Folding, http://www.origami.as/Info/history.php. Accessed at 15 June 2018.
Toplam 28 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Eğitim Bilimleri
Yazarlar

Tuğba Uygun 0000-0001-5431-4011

Yayımlanma Tarihi 24 Aralık 2019
Kabul Tarihi 20 Aralık 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 38 Sayı: 2

Kaynak Göster

APA Uygun, T. (2019). Implementation of Middle School Mathematics Teachers’ Origami-Based Lessons and Their Views about Student Learning. Ondokuz Mayis University Journal of Education Faculty, 38(2), 154-171. https://doi.org/10.7822/omuefd.496646