The Effect Of Open Inquiry-based Laboratory Activities On Prospective Teachers' Misconceptions About Matter

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Year-Number: 2015-Volume 7, Issue 3
Language : null
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Abstract

This research that requires prospective classroom teachers to conduct experiments at open inquiry level investigates prospective classroom teachers’ ability to conduct experiments at open inquiry level, and the effect of these experiments on their misconceptions. To this end, firstly a test on the relationship among “shape of matter, density of matter, and floating” was administered to prospective teachers, and the test results indicated that prospective teachers had misconceptions about this topic. Then prospective teachers were asked to conduct an observation related to this topic, to ask questions based on their observations, to design an experiment to answer their questions, and to conduct this experiment in the classroom. The participants of the research are composed of 28 prospective classroom teachers (20 female and 8 male) attending the Science and Technology Laboratory Practice I course in the academic year 2010-2011. The research results reveal that prospective teachers can design experiments based on their observations, and conduct their experiments successfully. In addition, the results of this quantitative research utilizing single group pretest-posttest design indicate that the practices within the scope of this research are effective in eliminating prospective teachers’ misconceptions.

Keywords

Abstract

This research that requires prospective classroom teachers to conduct experiments at open inquiry level investigates prospective classroom teachers’ ability to conduct experiments at open inquiry level, and the effect of these experiments on their misconceptions. To this end, firstly a test on the relationship among “shape of matter, density of matter, and floating” was administered to prospective teachers, and the test results indicated that prospective teachers had misconceptions about this topic. Then prospective teachers were asked to conduct an observation related to this topic, to ask questions based on their observations, to design an experiment to answer their questions, and to conduct this experiment in the classroom. The participants of the research are composed of 28 prospective classroom teachers (20 female and 8 male) attending the Science and Technology Laboratory Practice I course in the academic year 2010-2011. The research results reveal that prospective teachers can design experiments based on their observations, and conduct their experiments successfully. In addition, the results of this quantitative research utilizing single group pretest-posttest design indicate that the practices within the scope of this research are effective in eliminating prospective teachers’ misconceptions.

Keywords


  • American Association for the Advancement of Science. (AAAS) (1990). Science for all americans. New York, Oxford: Oxford University Press.

  • Berg, C. A. R., Bergendahl, V. C. B. and Lundberg, B. K. S. (2003) Benefiting from an open-ended experiment? acomparison of attitudes to, and outcomes of, an expository versus an open-inquiry version of the same experiment. International Journal of Science Education, 25(3), 351–372.

  • Colburn, A. (2000). An Inquiry primer. Science Scope, 23(6), 42-44.

  • Çepni, S., Küçük, M. ve Ayvacı, H. S. (2004). İlköğretim fen bilgisi öğretmen adaylarının fen branşlarına karşı görüşleri ve temel fen kavramlarını anlama düzeyleri. Dokuz Eylül Üniversitesi Buca Eğitim Fakültesi Dergisi, 15, 91-100

  • Duru, M. K., Demir, S., Önen, F. ve Benzer, E. (2011). Sorgulamaya dayalı laboratuvar uygulamalarının öğretmen adaylarının laboratuvar algısına, tutumuna ve bilimsel süreç becerilerine etkisi. Marmara Üniversitesi Atatürk Eğitim Fakültesi Eğitim Bilimleri Dergisi, 33, 25-44.

  • Haefner, L.A. and Zembal-Saul, C. (2004). Learning by doing? prospective elementary teachers' developing understandings of scientific ınquiry and science teaching and learning. International Journal of Science Education, 26(13), 1653-1674. doi: 10.1080/0950069042000230709

  • Hofstein, A. and Lunetta, V.N. (2004). The laboratory in science: foundation for the 21 st century. Science Education, 88, 28-54. doi: 10.1039/B7RP90003A

  • Hofstein, A. and Mamlok-Naaman, M. R. (2007) The laboratory in science education: the state of the art. Chemistry Education Research and Practice, 8(2), 105-107.

  • Kipnis, M. and Hofstein, A. (2008). The inquiry laboratory as a source for development of metacognitive skills. International Journal of Science and Mathematics Education, 6(3), 601-627.

  • Kipnis, M. and Hofstein, A. (2007). Inquiring the inquiry laboratory in high school. Contributions from Science Education Research, 6, 297-306.

  • Köseoğlu, F., Tümay, H. ve Kavak, N. (2002, Ekim). Üniversite temel kimya laboratuvarlarında öğrencilerin başarısı üzerine yapılandırmacı öğrenme teorisine dayalı öğretim yönteminin etkisi. V. Ulusal Fen Bilimleri ve Matematik Eğitimi Kongresinde sunulan bildiri, Orta Doğu Teknik Üniversitesi, Eğitim Fakültesi, Ankara.

  • Lord, T. and Orkwiszewski, T. (2006). Moving from didactic to inquiry-based instruction in a science laboratory. The American Biology Teacher, 68, 342–345. doi:10.1662/00027685(2006)68[342:DTIIIA]2.0.CO;2

  • Morrison, J. A. (2008) Individual ınquiry ınvestigations in an elementary science methods course. Journal of Science Teacher Education, 19, 117–134. doi:10.1007/s10972-007-9086-z

  • Nakiboğlu, C. ve İşbilir, A. (2001, Eylül). Ortaöğretim kurumlarında biyoloji derslerinde görevli öğretmenlerin laboratuvardan yararlanma durumlarının değerlendirilmesi. Yeni Bin Yılın Başında Türkiye’de Fen Bilimleri Eğitimi Sempozyumu’nda sunulan bildiri, Marmara Üniversitesi, Eğitim Fakültesi, İstanbul.

  • National Research Council. (NCR) (1996). National science education standards. Washington, D.C.: National Academy Press.

  • National Research Council. (2000). National science education standards. USA: National Academy Press, Washington, DC.

  • Ottander, C. and Grelsson, G. (2006). Laboratory work: The teachers’ perspective. Journal of Biological Education, 40 (3), 113-118. doi:10.1080/00219266.2006.9656027

  • Roychoudhury, A. and Roth, W.M. (1996). Interactions in an open-inquiry physics laboratory. International Journal of Science Education, 18, 423–445. doi: 10.1080/0950069960180403

  • Talim ve Terbiye Kurulu Başkanlığı (TTKB) (2005). İlköğretim fen ve teknoloji dersi 4. ve 5. sınıflar öğretim programları. Ankara: MEB Yayınevi.

  • Tatar, N. (2006). İlköğretim fen eğitiminde araştırmaya dayalı öğrenme yaklaşımının bilimsel süreç becerilerine, akademik başarıya ve tutuma etkisi, Yayımlanmamış doktora tezi, Gazi Üniversitesi, Ankara. https://tez.yok.gov.tr/UlusalTezMerkezi adresinden edinilmiştir.

  • Tezcan, H. ve Günay, S. (2003). Lise kimya öğretiminde laboratuvar kullanımına ilişkin öğretmen görüşleri. Milli Eğitim Dergisi, 159

  • Uluçınar, Ş., Cansaran, A. ve Karaca, A. (2004). Fen bilimleri laboratuvar uygulamalarının değerlendirilmesi. Türk Eğitim Bilimleri Dergisi, 2(4), 465-475.

  • Westerlund, J. F., Garcia, D. M., Koke, J. R., Taylor, T. A. and Mason, D. S. (2002). Summer scientific research for teachers: The experience and its effect. Journal of Science Teacher Education, 13(1), 63–83.

                                                                                                                                                                                                        
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