How is student scientific attitude profile toward chemistry learning with research-oriented collaborative inquiry learning?
DOI:
10.29303/jpm.v18i2.4658Published:
2023-03-30Issue:
Vol. 18 No. 2 (2023): March 2023Keywords:
Attitude, Chemistry learning, Research Oriented Collaborative Inquiry Learning (REORCILEA)Articles
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Abstract
This study aims to describe the profile of scientific attitudes of XI grade high school students in Sleman who learned with the Research-Oriented Collaborative Inquiry Learning REORCILEA. The sample in this research was 30 high school students who were selected using a purposive sampling technique. REORCILEA is an integrated learning model between research-based, inquiry, and collaborative learning. The research was descriptive qualitative designed, and the results of the descriptive analysis revealed that high school students who taught with REORCILEA had a 10% good, 86, 67 % enough, and 3.33 % low scientific attitude profile. Scientific attitude toward chemistry learning profile assessed with a questionnaire developed by the researcher. Students' scientific attitudes are described by seven aspects of scientific attitude, specifically curiosity, rational thinking, openmindedness, concern with evidence, and honest acting according to the rules.
References
Sharma, U. (2015). Comparative study of the scientific attitude of science and non-science pupil teachers, International Journal of applied research, 1(10), 798-800.
Yuksel, M. & O, Geban. (2014). A study of the prediction of academic achievement in the chemistry course. Education and Science, 39(173), 354-365.
Gabel, D. (1999). Improving teaching and learning through chemistry education research: a look to the future. Journal of Chemical Education. 76(4), 549-554, doi: 10.1021/ed076p548.
Ekawati, E. Y. (2017). A model of scientific attitudes assessment by observation in physics learning based scientific approach: a case study of a dynamic fluid topic in high school. Journal of Physics Conference Series, 795, 1-9, doi: 10.1088/1742-6596/795/1/012056.
Ebel, R. L. (1938). What is the scientific attitude? Roosevelt high school, cedar rapids, Iowa. Science Education. 22(1), 1-5, doi: 10.1002/sce.3730220209.
Ajzen, I & Fisbein, M. (2000). Attitude and the attitude-behavior relation: reasoned and automatic processes. European Review of Social Psychology, 11, 1-33, doi: 10.1080/14792779943000116.
Solpuk, N. (2017). The effect of attitude on student achievement. Springer International Publishing, 57-74
Montes, L. H., Ferreira, R. A., & Rodriguez, C. (2018). Explaining secondary school students’ attitudes toward chemistry in Chile. Chemistry Education Research and Practice, 1-12, doi: 10.1039/c8r00003d.
Mantzicopoulos, P., & Samarapungavan, A. (2008). Young children’s motivational beliefs about learning science. Early Childhood Research Quarterly, 23, 378–394.
Punia, V & Bala, R (2009). The scientific attitude amongst the science and non-science pupil teachers: Comparative Analysis, 1-20.
Martin, R., C, Sexton., Franklin, T. & Gerlivich, J. (2005). Teaching science for all children: an inquiry Methods for construction understanding. Upper Saddle River: Pearson Education.
Irwanto, Rohaeti, E., & Santoso, A. K. P. (2018). Buku Model REORCILEA (research-oriented collaborative inquiry learning), Yogyakarta: UNY.
Winkelmann, K., Baloga, Marcinkowski, T., Giannoulis, C., Anquandah, G., & Cohen, P. (2016). Improving students' inquiry skills and self-efficacy through research-inspired modules in the general chemistry laboratory. Journal of Chemical Education, 92(22), 92, 247-255.
Ozmen, H., Demircioglu, G., & Coll, R. K. (2009). A Comparative study of the effects of a concept mapping enhanced laboratory experience on Turkish high school student's understanding of acid-based chemistry. International Journal of Science and Mathematics Education, 7(1), 1-24.
Ural, E. (2016). The effect of guided inquiry laboratory experiments on science education students’ chemistry laboratory attitudes, anxiety, and achievement. Journal of Education and Training Studies, 4(4), 217-227.
Ozel, M., Caglak, S., & Erdogan, M. (2013). Are affective factors a good predictor of science achievement? Examining the role of affective factors based on PISA 2006, Learning and Individual Differences, 24, 73–82.
Brandriet, A., R, Xu X., Bretza, S & Lewis, J. E. (2011). Diagnosing changes in attitude in first-year college chemistry students with a shortened version of Bauer’s semantic differential, Chemistry Education Research, and Practice, 12, 271–278.
Kahveci, A. (2015). Assessing high school students' attitudes toward chemistry with a shortened semantic differential. Chemistry Education Research and Practice. 16, 283-292. doi: 10.1039/c4rp00186a
Olasehinde, K. J & Olatoye, R. A. (2014). Scientific attitudes, attitudes to science and science achievement of senior secondary school student in Katsina State, Nigeria. Journal of Educational and Social Research, 4(1), 445-452.
Fraser, B. J. (1978). Development of a test of science-related science attitudes. Science Education, 62(4), 509-515.
Fulmer, H. Ma, L. L. Liang, (2019). Middle school student attitudes toward science and their relationships with instructional practices: a survey of Chinese students preferred versus actual instruction. Asia-Pacific Science Education, 5(9).
Bunterm, K. Lee, J. Ng Lan Kong, S. Srikoon, P. Vangpoomyai, J. Rattanavongsa, G. Rachahoon. (2014). Do Different levels of inquiry lead to different learning outcomes? A comparison between guided and structured inquiry. International Journal of Science Education, 36(12), 1937–1959.
Sen, O. & Oskay, O. (2017). The effect of 5E inquiry learning activities on achievement and attitude toward chemistry. Journal of Education and Learning, 6(1).
Ross, L., Nunez, C., & Lai,C. (2018). Partial least squares structural equation modeling of chemistry attitude in introductory college chemistry. Chemistry Education Research and Practice.
Fernandez, F. B. (2017). Action research in the physics classroom: the impact of authentic, inquiry-based learning or instruction on the learning of thermal physics. Asia-Pacific Science Education, 3(3), 1-20.
Author Biographies
Yuyum Fahmidani, Universitas Mataram
Eli Rohaeti, Chemistry Education Study Program, Faculty of Mathematics and Natural Sciences Universitas Negeri Yogyakarta
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