A rating scale development study for the evaluation of lesson plans and teaching practices on argumentation-based inquiry
Year 2022,
Volume: 9 Issue: 4, 964 - 997, 22.12.2022
Funda Hasançebi
,
Büşra Tuncay Yüksel
,
Günkut Mesci
Abstract
The purpose of this study was to develop a reliable and valid rating scale for the use of the assessment and evaluation of lesson plans and teaching practices that are based on argumentation-based inquiry (ABI). The study covered two academic years (four academic semesters). Qualitative and quantitative methods were utilized throughout the development of the rating scale including data collection and data analyses. A purposive sample of 72 pre-service science teachers (PSTs) who were enrolled in a public university located in East Black Sea region of Turkey constituted the sample of the study. Content Validity Ratio (CVR=.80) and Content Validity Index (CVI=.94) values were calculated as measures of content validity. Pearson Correlation Coefficient (r=.96) and Cohen’s Kappa value (κ value was between .60 and 1.00) were calculated to test inter-rater reliability of the scores obtained by the rating scale. Findings provided evidence for the reliability and the validity of the ABI rating scale. ABI lesson plan template and ABI rating scale developed for the assessment and evaluation of ABI lesson plans and subsequent teaching practices are provided to the readers. Contributions to the field are discussed.
References
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A rating scale development study for the evaluation of lesson plans and teaching practices on argumentation-based inquiry
Year 2022,
Volume: 9 Issue: 4, 964 - 997, 22.12.2022
Funda Hasançebi
,
Büşra Tuncay Yüksel
,
Günkut Mesci
Abstract
The purpose of this study was to develop a reliable and valid rating scale for the use of the assessment and evaluation of lesson plans and teaching practices that are based on argumentation-based inquiry (ABI). The study covered two academic years (four academic semesters). Qualitative and quantitative methods were utilized throughout the development of the rating scale including data collection and data analyses. A purposive sample of 72 pre-service science teachers (PSTs) who were enrolled in a public university located in East Black Sea region of Turkey constituted the sample of the study. Content Validity Ratio (CVR=.80) and Content Validity Index (CVI=.94) values were calculated as measures of content validity. Pearson Correlation Coefficient (r=.96) and Cohen’s Kappa value (κ value was between .60 and 1.00) were calculated to test inter-rater reliability of the scores obtained by the rating scale. Findings provided evidence for the reliability and the validity of the ABI rating scale. ABI lesson plan template and ABI rating scale developed for the assessment and evaluation of ABI lesson plans and subsequent teaching practices are provided to the readers. Contributions to the field are discussed.
References
- Akkus, R., Günel, M., & Hand, B. (2007). Comparing an inquiry-based approach known as the science writing heuristic to traditional science teaching practices: Are there differences? International Journal of Science Education, 14(1), 1745 1765. https://doi.org/10.1080/09500690601075629
- Aktamış, H., & Atmaca, A.C. (2016). Fen bilgisi öğretmen adaylarının argümantasyon tabanlı öğrenme yaklaşımına yönelik görüşleri [View’s of pre service science teachers about argumentation based learning approach]. Electronic Journal of Social Sciences, 15(58), 936–947. http://doi.org/10.17755/esosder.48760
- Arık, M., & Akçay, B. (2017). Argümantasyon tabanlı öğrenme [Argumantation based learning]. In B. Akcay (Ed.), Fen bilimleri eğitimi alanındaki öğrenme ve öğretme yaklaşımları [Learning and teaching approaches in science education] (pp.177 192). Pegem A Yayıncılık.
- Australian Curriculum, Assessment and Reporting Authority. (2012). The Australian curriculum: Science (Version 3.0). Commonwealth of Australia, NSW.
- Aydeniz, M., & Ozdilek, Z. (2016). Assessing and enhancing pre service science teachers’ self efficacy to teach science through argumentation: Challenges and possible solutions. International Journal of Science and Mathematics Education, 14(7), 1255 1273. http://doi.org/10.1007/s10763-015-9649-y
- Ayre, C., & Scally, A.J. (2014). Critical values for Lawshe’s content validity ratio: Revisiting the original methods of calculation. Measurement and Evaluation in Counseling and Development, 47(1), 79 86. https://doi.org/10.1177/0748175613513808
- Bean, J.C. (1996). Engaging ideas: The professor’s guide to integrating writing, critical thinking, and active learning in the classroom. Jossey-Bass Press.
- Bell, P., & Linn, M.C. (2000). Scientific arguments as learning artifacts: Designing for learning from the web with KIE. International Journal of Science Education, 22(8), 797 817. https://doi.org/10.1080/095006900412284
- Berland, L.K., & McNeill, K.L. (2010). A learning progression for scientific argumentation: Understanding student work and designing supportive instructional contexts. Science Education, 94(5), 765 793. https://doi.org/10.1002/sce.20402
- Burke, K.A., Greenbowe, T.J., & Hand, B.M. (2006). Implementing the science writing heuristic in the chemistry laboratory. Journal of Chemical Education, 83(7), 1032 1038. https://doi.org/10.1021/ed083p1032
- Buyukozturk, Ş., Kılıc-Cakmak, E., Akgun, Ö.E., Karadeniz, S. & Demirel, F. (2020). Bilimsel araştırma yöntemleri [Scientific research methods]. (29th ed.). Pegem Yayıncılık.
- Cavagnetto, A.R., Hand, B., & Norten Meier, L. (2010). Negotiating the inquiry question: A comparison of whole class and small group strategies in grade five science classrooms. Research in Science Education, 41(2), 193 209. https://doi.org/10.1007/s11165 009 9152-y
- Chan, J., Fancourt, N., & Guilfoyle, L. (2021). Argumentation in religious education in England: An analysis of locally agreed syllabuses. British Journal of Religious Education, 43(4), 458 471. https://doi.org/10.1080/01416200.2020.1734916
- Chan, J., & Erduran, S. (2022). The impact of collaboration between science and religious education teachers on their understanding and views of argumentation. Research in Science Education, 1-17. https://doi.org/10.1007/s11165-022-10041-1
- Chen, C.H., & She, C. (2012). The impact of recurrent online synchronous scientific argumentation on students’ argumentation and conceptual change. Educational Technology & Society, 15(1), 197-210. https://www.jstor.org/stable/jeductechsoci.15.1.197
- Chin, C., & Osborne, J. (2010). Students’ questions and discursive ınteraction: their ımpact on argumentation during collaborative group discussions in science. Journal of Research in Science Teaching, 47(7), 883 908. https://doi.org/10.1002/tea.20385
- Choi, A., Notebaert, A., Diaz, J., & Hand, B. (2010). Examining arguments generated by year 5, 7, and 10 students in science classrooms. Research in Science Education, 40(2), 149 169. https://doi.org/10.1007/s11165-008-9105-x
- Cirit Gül, A., Apaydın, Z., & Çobanoğlu, E.O., (2021). Türkiye'de Argümantasyon ile ilgili yapılan lisansüstü tezlerin incelenmesi [Investigation of graduate thesis about argumentation in Turkey: Thematic Content Analysis]. Ondokuz Mayıs University Journal of Faculty of Education, 40(2), 591-628. https://doi.org/10.7822/omuefd.863712
- Creswell, J.W. (2014). Research design: Qualitative, quantitative, and mixed methods approaches (4th ed.). SAGE Publications
- Cresswell, J.W., & Plano Clark, V.L. (2011). Designing and conducting mixed method research (2nd ed.). Thousand Oaks.
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