Araştırma Makalesi
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Ortaokul Öğrencilerinin Yaratıcı Problem Çözme Becerileri

Yıl 2018, Cilt: 12 Sayı: 1, 1 - 24, 30.06.2018
https://doi.org/10.17522/balikesirnef.437352

Öz












Günümüz bilgi çağında
öğrencilerin hayatlarını daha sağlıklı sürdürebilmeleri için problem çözme
becerilerini geliştirmeye yönelik etkinlikler yeterli değildir.  Bunun yerine öğrencilerin çok boyutlu
düşünmesine fırsat tanıyan, üst düzey düşünmelerini sağlayan eğitimlere ihtiyaç
duyulmaktadır. Bu ihtiyaçlardan dolayı öğrencilerin üst düzey düşünmelerini
sağlayan yaratıcı birer problem çözücü olmaları gerekmektedir. Yaratıcı problem
çözme etkinlikleri ile öğrencilerin üst düzey düşünme becerilerinin
geliştirileceğine olan inanç bu çalışmanın temelini oluşturmaktadır. 



Çalışma, Türkiye’nin
Karadeniz bölgesinde bulunan iki ilden rastgele örnekleme yöntemi ile seçilen
toplam 72 öğrenci ile gerçekleştirilmiştir. Çalışmada veri toplama aracı olarak
Price (2006) tarafından geliştirilen bir yaratıcı problem kullanılmıştır.
Verilerin analizinde, uygulanan problemlerin çözümleri Mumford ve diğ. (1991)’nin
yaratıcı problem çözme adımları göz önünde bulundurularak incelenmiştir.
Araştırmada nitel araştırma yöntemlerinden içerik analizi kullanılmıştır. 



Elde edilen bulguların
sonucunda, ortaokul öğrencilerinin 
yaratıcı problem ile ilk defa karşı karşıya kalmaları sebebiyle biraz
zorlandıkları belirlenmiştir. Öğrencilerin problemi yapılandırma, kategori
seçme ve bilgiyi kodlama basamağında zorlandıkları tespit edilmiştir.



Kaynakça

  • Altun, M., Sezgin Memnun, D. & Yazgan, Y. (2007). Sınıf öğretmeni adaylarının rutin olmayan matematiksel problemleri çözme becerileri ve bu konudaki düşünceleri, İlköğretim Online, 6 (1), 127-143.
  • Anzai, Y. & Yokoyoma, T. (1984). Internal Models in Physics Problem Solving. Cognition and Instruction, 1(4), 397-450.
  • Aslan, E. A. (2002). Örgütte Kişisel Gelişim. (Edt) Ankara: Nobel Yayıncılık
  • Baer, J. M. (1988). Long-term effects of creativity training with middle school students. Journal of Early Adolescence, 8, 183-193.
  • Bal-İncebacak, B. & Ersoy, E. (2016b). Problem solving skills of secondary school students, China-USA Business Review, 15(6), 275-285 doi: 10.17265/1537-1514/2016.06.002
  • Bal-İncebacak, B. & Ersoy, E. (2015). Problem Solving Skills of Secondary School Students, International Conference on Best Practices and Innovations in Education, Ekim 26-28, İzmir.
  • Bal-İncebacak, B. & Ersoy, E. (2016a). 7. sınıf öğrencilerinin matematiksel muhakeme becerilerinin TIMSS’e göre analizi. Uluslararası Sosyal Araştırmalar Dergisi, 9(46), 474- 481.
  • Bassey, M. (1999). Case Study Research In Educational Settings. USA: Open University.
  • Branch J. L. (2000) The Trouble with Think Alouds: Generating Data Using Concurrent Verbal Protocols. CAIS 2000: Dimensions of a Global Information Science. Canadian Association for Information Science Proceedings of the 28th Annual Conference.
  • Chen, L.A. (1986). Torrance Figural Creative Thinking Test. Taipei: Taipei Municipal Teachers College.
  • Chi, M.T.H., Feltovich, P.S., & Glaser, R. (1981). Categorization and Representation of Physics Problems By Experts And Novices. Cognitive science, 5, 121-152.
  • Cohen, L. & Manion, L. (1997). Research Methods In Education. London: Routledge.
  • Denzin, N. K. ve Lincoln, Y. S. (1996). Strategies of Qualitative Inquiry. London: Sage Publications.
  • Ersoy, E. & Güner, P. (2014). Matematik Öğretimi ve Matematiksel düşünme. Eğitim ve Öğretim Araştırmaları Dergisi. 3 (2). 102-112.
  • Fogler, H. S., LeBlanc, S., & Rizzo, B. (2014). Strategies for creative problem solving (3rd ed.). New York, NY: Prentice Hall.
  • Haylock, D. W. (1985). High Mathematical Creativity in a Deir of Identical Twins. Journal of Genetic Psychology, 146(4), 557-560.
  • Isaksen, S. G. & Treffinger, D. J. (1987). Creative problem solving: Three components and six specific stages. Buffalo, NY: Centre for Studies in Creativity.
  • Isaksen, S. G. & Treffinger, D. J. (2004). Celebrating 50 years of reflective practice: Versions of creative problem solving. Journal of Creative Behavior, 38, 75-101. doi:10.1002/j.2162-6057.2004.tb01234.x
  • Isaksen, S. G., Dorval, K. B. & Treffinger, D. J. (2011). Creative approaches to problem solving: A framework for innovation and change (3rd ed.). London, England: SAGE.
  • Jensen, L. R. (1973). The relationships among mathematical creativity, numerical aptitude and mathematical achievement. Unpublished doctoral dissertation, The University of Texas, Austin.
  • Larkin, J. H. (1980). Skilled Problem Solving iIn Physics: A Hierarchical Planning Model. Journal of Structural Learning, 1, 271-297.
  • Miles, M. B. & Huberman, A.M. (1994). Qualitative Data Analysis: A sourcebook of new methods ( 2nd ed.). Thousand Oaks, CA: Sage
  • Mobley, M. I., Doares, L. M. & Mumford, M. D. (1992). Process Analytic Models of Creative Capacities:Evdence for the Comnination and Reorganization process. Creative Research Journal, 5,125-155.
  • Mumford, M. D., Baughman, W. A., Threlfall, K. V., Supinski, E. P. & Costanza, D. P. (1996). Process-based measures of creative problem-solving skill: I. Problem Construction. . Creativity Research Journal, 9,63-76.
  • Mumford, M. D., Mobley, M. I., Uhiman, C. E., Reiter-Palmon, R. & Doares, L. M. (1991). Process analytic models of creative capacities. Creativity Research Journal, 4, 91-122.
  • Mumford, M. D., Supinski, E. P., Threlfall, K. V. & Baughman, W. A. (1996). Process-based measures of creative problem-solving skill: III. Category Selection. Creativity Research Journal, 9,395-406.
  • Murdock, M. C. (2003). The effects of teaching programmes intended to stimulate creativity: A disciplinary view. Scandinavian Journal of Educational Research, 47, 339-357.
  • Osborn, A. (1963). Applied imagination: Principles and procedures of creative thinking (3rd. Ed.). New York: Charles Scribners Sons.
  • Osborn, A. F. (1953). Applied imigination. New York: Charles Scribners sons.
  • Özden, Y. (2003). Öğrenme ve Öğretme Kurumları. Ankara: Pegem A Yayıncılık
  • Parnes, S. J. & Noller, R. B. (1973). Applied creativity: The creative studies project. Part IV: Personality findings and conclusions. Journal of Creative Behavior, 7, 15–36.
  • Patton, M. Q. (1990). Qualitative Evaluation and Research Methods. USA: Sage.
  • Piffer, D. (2012). Can Creativity be Measured? An Attempt to Clarify the Notion of Creativity and General Directions for Future Research. Thinking Skills and Creativity. 7(3), 258-264.
  • Pithers, R. T. & Soden, R. (2000). Critical thinking in education. Educational Research, 42, 237-249. doi:10.1080/001318800440579
  • Price, A. (2006). Creative Maths Activities for Able Students. İdeas for Working with Children Ager 11 to 14. London: Paul Chapman Publishing
  • Puccio, G. J., Murdock, M. C. & Mance, M. (2005). Current developments in creative problem solving for organization: A focus on thinking skills and styles. The Korean Journal of Thinking & Problem Solving, 15, 43-46.
  • Redmond, M. R., Mumford, M. D. & Teach, R. (1993). Putting creativity to work: Effects of leader behavior on subordinate creativity. Organizational Behavior and Human Decision Processes, 55, 120-151.
  • Saracaloğlu, S., Serin, O. & Bozkurt, N. (2001). Dokuz Eylül üniversitesi eğitim bilimleri enstitüsü öğrencilerinin problem çözme becerileri ile başarıları arasındaki ilişki. M.Ü. Atatürk Eğitim Fakültesi Eğitim Bilimleri Dergisi,14, 121-134.
  • Şener, S. D. (2006). TRIZ: Yaratıcı Problem Çözme Teorisi ve Diğer Problem Çözme Yöntemleriyle Karşılaştırma, (Yayımlanmamış Yüksek Lisans Tezi), İstanbul Üniversitesi Fen Bilimleri Enstitüsü, İstanbul.
  • Souchkov, V., 1996. TRIZ: A Systematic Approach to Innovative Design URL: http://www.insytec.com/TRIZApproach.htm
  • Soylu, Y. & Soylu, C. (2006). Matematik Derslerinde Başarıya Giden Yolda Problem Çözmenin Rolü. Eğitim Fakültesi Dergisi. 7 (11). 97-111.
  • Spraker, H. S. (1960). A Study of the Comparative Emergence of Creative Intellectual Behavior During the Process of Group and Individual Study of Mathematics, Doctoral dissertation, University of Virginia.
  • Sternberg, R. J. (1985). On Testing and Teaching Intelligence: A Conversation with Robert Sternberg. Educational leadership, October, 50-53.
  • Taylor, C. W. & Sacks, D. (1981). Facilitating lifetime creative processes-a think piece. Gifted Child Quarterly, 25, 116-118.
  • Torrance, E. P. (Ed.). (2000). On the edge and keeping on the edge. Besenville, IL:Scholastic Testing Press.
  • Treffinger, D. J. & Isaksen, S. G. (2005). Creative problem solving: The history, development and implications for gifted educaiton and talent developent. The Evalotion of CPS in Difted Education, 49(4). 342- 353.
  • Vernon, D., Hocking, L. & Tyler, T. C. (2016). An evidence-based review of creative problem solving tools: A practitioner’s resource. Human Resource Development Review, 15 (2), 230-259. DOI: 10.1177/1534484316641512
  • Verschaffel, L., De Corte, E. & Lasure, S. (1999). Learning to Solve Mathematical Application Problems: A Design Experiment with Fifth Graders. Mathematical Thinking and Learning, 1(3), 195-229.
  • Wei, W. J. & Lee, L. C. (2015). Interactive technology for creativety in early chilhood education. Jurnal Teknologi (Sciences & Engineering) 75(3), 121–126
  • Yıldırım, A. & Şimşek, H. (2005). Sosyal Bilimlerde Nitel Araştırma Yöntemleri. Ankara: Seçkin Yayınları.
  • Zimmerman, B. et al. (1999). (Eds.): Kreatives Denken und Innovationen in mathematischen Wissenschaften. Tagungsband zum interdisziplinaeren Symposium an der Friedrich-Schiller- Universitaet Jena, Germany

Creative Problem Solving Skills Of Secondary School Students

Yıl 2018, Cilt: 12 Sayı: 1, 1 - 24, 30.06.2018
https://doi.org/10.17522/balikesirnef.437352

Öz












Activities to improve students' problem-solving skills are not enough in
the information age. Instead, there is a trend towards modern methods ensuring
opportunity to multi-dimensional thinking. Due to this trend, students must be
a creative problem solver that enables high-level thinking. It is expected that
student creativity will be developed through creative problem-solving
activities.



We carried out the study by sampling method with a total of 72 students
from the two provinces in the Black Sea region of Turkey selected by random. In
the study, we used the one creative problems developed by Price (2006) as data
collecting tools. In analysing the data, the solutions of applied problems were
investigated regardful of Mumford et al. (1991) 's creative problem solving
steps. Content analysis of qualitative research methods was conducted in the
research. The data obtained were submitted to the views of two experts to
achieve reliability and validity of the study and correspondence percentage was
calculated.



As a result of the findings, we have found out that the middle school
students have some difficulties as they have faced with creative problems for
the first time. We have determined that students have difficulties in the
configuration step of the problems, in the steps of choosing categories and
encoding information.



Kaynakça

  • Altun, M., Sezgin Memnun, D. & Yazgan, Y. (2007). Sınıf öğretmeni adaylarının rutin olmayan matematiksel problemleri çözme becerileri ve bu konudaki düşünceleri, İlköğretim Online, 6 (1), 127-143.
  • Anzai, Y. & Yokoyoma, T. (1984). Internal Models in Physics Problem Solving. Cognition and Instruction, 1(4), 397-450.
  • Aslan, E. A. (2002). Örgütte Kişisel Gelişim. (Edt) Ankara: Nobel Yayıncılık
  • Baer, J. M. (1988). Long-term effects of creativity training with middle school students. Journal of Early Adolescence, 8, 183-193.
  • Bal-İncebacak, B. & Ersoy, E. (2016b). Problem solving skills of secondary school students, China-USA Business Review, 15(6), 275-285 doi: 10.17265/1537-1514/2016.06.002
  • Bal-İncebacak, B. & Ersoy, E. (2015). Problem Solving Skills of Secondary School Students, International Conference on Best Practices and Innovations in Education, Ekim 26-28, İzmir.
  • Bal-İncebacak, B. & Ersoy, E. (2016a). 7. sınıf öğrencilerinin matematiksel muhakeme becerilerinin TIMSS’e göre analizi. Uluslararası Sosyal Araştırmalar Dergisi, 9(46), 474- 481.
  • Bassey, M. (1999). Case Study Research In Educational Settings. USA: Open University.
  • Branch J. L. (2000) The Trouble with Think Alouds: Generating Data Using Concurrent Verbal Protocols. CAIS 2000: Dimensions of a Global Information Science. Canadian Association for Information Science Proceedings of the 28th Annual Conference.
  • Chen, L.A. (1986). Torrance Figural Creative Thinking Test. Taipei: Taipei Municipal Teachers College.
  • Chi, M.T.H., Feltovich, P.S., & Glaser, R. (1981). Categorization and Representation of Physics Problems By Experts And Novices. Cognitive science, 5, 121-152.
  • Cohen, L. & Manion, L. (1997). Research Methods In Education. London: Routledge.
  • Denzin, N. K. ve Lincoln, Y. S. (1996). Strategies of Qualitative Inquiry. London: Sage Publications.
  • Ersoy, E. & Güner, P. (2014). Matematik Öğretimi ve Matematiksel düşünme. Eğitim ve Öğretim Araştırmaları Dergisi. 3 (2). 102-112.
  • Fogler, H. S., LeBlanc, S., & Rizzo, B. (2014). Strategies for creative problem solving (3rd ed.). New York, NY: Prentice Hall.
  • Haylock, D. W. (1985). High Mathematical Creativity in a Deir of Identical Twins. Journal of Genetic Psychology, 146(4), 557-560.
  • Isaksen, S. G. & Treffinger, D. J. (1987). Creative problem solving: Three components and six specific stages. Buffalo, NY: Centre for Studies in Creativity.
  • Isaksen, S. G. & Treffinger, D. J. (2004). Celebrating 50 years of reflective practice: Versions of creative problem solving. Journal of Creative Behavior, 38, 75-101. doi:10.1002/j.2162-6057.2004.tb01234.x
  • Isaksen, S. G., Dorval, K. B. & Treffinger, D. J. (2011). Creative approaches to problem solving: A framework for innovation and change (3rd ed.). London, England: SAGE.
  • Jensen, L. R. (1973). The relationships among mathematical creativity, numerical aptitude and mathematical achievement. Unpublished doctoral dissertation, The University of Texas, Austin.
  • Larkin, J. H. (1980). Skilled Problem Solving iIn Physics: A Hierarchical Planning Model. Journal of Structural Learning, 1, 271-297.
  • Miles, M. B. & Huberman, A.M. (1994). Qualitative Data Analysis: A sourcebook of new methods ( 2nd ed.). Thousand Oaks, CA: Sage
  • Mobley, M. I., Doares, L. M. & Mumford, M. D. (1992). Process Analytic Models of Creative Capacities:Evdence for the Comnination and Reorganization process. Creative Research Journal, 5,125-155.
  • Mumford, M. D., Baughman, W. A., Threlfall, K. V., Supinski, E. P. & Costanza, D. P. (1996). Process-based measures of creative problem-solving skill: I. Problem Construction. . Creativity Research Journal, 9,63-76.
  • Mumford, M. D., Mobley, M. I., Uhiman, C. E., Reiter-Palmon, R. & Doares, L. M. (1991). Process analytic models of creative capacities. Creativity Research Journal, 4, 91-122.
  • Mumford, M. D., Supinski, E. P., Threlfall, K. V. & Baughman, W. A. (1996). Process-based measures of creative problem-solving skill: III. Category Selection. Creativity Research Journal, 9,395-406.
  • Murdock, M. C. (2003). The effects of teaching programmes intended to stimulate creativity: A disciplinary view. Scandinavian Journal of Educational Research, 47, 339-357.
  • Osborn, A. (1963). Applied imagination: Principles and procedures of creative thinking (3rd. Ed.). New York: Charles Scribners Sons.
  • Osborn, A. F. (1953). Applied imigination. New York: Charles Scribners sons.
  • Özden, Y. (2003). Öğrenme ve Öğretme Kurumları. Ankara: Pegem A Yayıncılık
  • Parnes, S. J. & Noller, R. B. (1973). Applied creativity: The creative studies project. Part IV: Personality findings and conclusions. Journal of Creative Behavior, 7, 15–36.
  • Patton, M. Q. (1990). Qualitative Evaluation and Research Methods. USA: Sage.
  • Piffer, D. (2012). Can Creativity be Measured? An Attempt to Clarify the Notion of Creativity and General Directions for Future Research. Thinking Skills and Creativity. 7(3), 258-264.
  • Pithers, R. T. & Soden, R. (2000). Critical thinking in education. Educational Research, 42, 237-249. doi:10.1080/001318800440579
  • Price, A. (2006). Creative Maths Activities for Able Students. İdeas for Working with Children Ager 11 to 14. London: Paul Chapman Publishing
  • Puccio, G. J., Murdock, M. C. & Mance, M. (2005). Current developments in creative problem solving for organization: A focus on thinking skills and styles. The Korean Journal of Thinking & Problem Solving, 15, 43-46.
  • Redmond, M. R., Mumford, M. D. & Teach, R. (1993). Putting creativity to work: Effects of leader behavior on subordinate creativity. Organizational Behavior and Human Decision Processes, 55, 120-151.
  • Saracaloğlu, S., Serin, O. & Bozkurt, N. (2001). Dokuz Eylül üniversitesi eğitim bilimleri enstitüsü öğrencilerinin problem çözme becerileri ile başarıları arasındaki ilişki. M.Ü. Atatürk Eğitim Fakültesi Eğitim Bilimleri Dergisi,14, 121-134.
  • Şener, S. D. (2006). TRIZ: Yaratıcı Problem Çözme Teorisi ve Diğer Problem Çözme Yöntemleriyle Karşılaştırma, (Yayımlanmamış Yüksek Lisans Tezi), İstanbul Üniversitesi Fen Bilimleri Enstitüsü, İstanbul.
  • Souchkov, V., 1996. TRIZ: A Systematic Approach to Innovative Design URL: http://www.insytec.com/TRIZApproach.htm
  • Soylu, Y. & Soylu, C. (2006). Matematik Derslerinde Başarıya Giden Yolda Problem Çözmenin Rolü. Eğitim Fakültesi Dergisi. 7 (11). 97-111.
  • Spraker, H. S. (1960). A Study of the Comparative Emergence of Creative Intellectual Behavior During the Process of Group and Individual Study of Mathematics, Doctoral dissertation, University of Virginia.
  • Sternberg, R. J. (1985). On Testing and Teaching Intelligence: A Conversation with Robert Sternberg. Educational leadership, October, 50-53.
  • Taylor, C. W. & Sacks, D. (1981). Facilitating lifetime creative processes-a think piece. Gifted Child Quarterly, 25, 116-118.
  • Torrance, E. P. (Ed.). (2000). On the edge and keeping on the edge. Besenville, IL:Scholastic Testing Press.
  • Treffinger, D. J. & Isaksen, S. G. (2005). Creative problem solving: The history, development and implications for gifted educaiton and talent developent. The Evalotion of CPS in Difted Education, 49(4). 342- 353.
  • Vernon, D., Hocking, L. & Tyler, T. C. (2016). An evidence-based review of creative problem solving tools: A practitioner’s resource. Human Resource Development Review, 15 (2), 230-259. DOI: 10.1177/1534484316641512
  • Verschaffel, L., De Corte, E. & Lasure, S. (1999). Learning to Solve Mathematical Application Problems: A Design Experiment with Fifth Graders. Mathematical Thinking and Learning, 1(3), 195-229.
  • Wei, W. J. & Lee, L. C. (2015). Interactive technology for creativety in early chilhood education. Jurnal Teknologi (Sciences & Engineering) 75(3), 121–126
  • Yıldırım, A. & Şimşek, H. (2005). Sosyal Bilimlerde Nitel Araştırma Yöntemleri. Ankara: Seçkin Yayınları.
  • Zimmerman, B. et al. (1999). (Eds.): Kreatives Denken und Innovationen in mathematischen Wissenschaften. Tagungsband zum interdisziplinaeren Symposium an der Friedrich-Schiller- Universitaet Jena, Germany
Toplam 51 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Belgin Bal İncebacak 0000-0003-4643-8051

Esen Ersoy 0000-0002-7594-8838

Yayımlanma Tarihi 30 Haziran 2018
Gönderilme Tarihi 11 Ekim 2017
Yayımlandığı Sayı Yıl 2018 Cilt: 12 Sayı: 1

Kaynak Göster

APA Bal İncebacak, B., & Ersoy, E. (2018). Ortaokul Öğrencilerinin Yaratıcı Problem Çözme Becerileri. Necatibey Faculty of Education Electronic Journal of Science and Mathematics Education, 12(1), 1-24. https://doi.org/10.17522/balikesirnef.437352