Scientific research activity organisation and improvement in a primary school

VINCENTAS LAMANAUSKAS, DALIA AUGIENĖ

Abstract

Scientific research activity (SRA) is very important in an early natural science education process. Basically, it comprises primary general education school. Natural science education process construction based on experimental-research activity is acknowledged at an international level as an effective educational approach. However, it is still very little/not enough known about teachers’ position (opinion) concerning research activity aims, research activity organisation and realisation, scientific research competence of the teachers themselves. The main students’ SRA organisation aim is to give an opportunity for the students themselves to try scientific method application, in this way acquiring and broadening natural science knowledge. Such an activity in its turn is undoubtedly practical and requires students’ creativity and proper motivation. The conducted research aim was to analyse primary class teachers’ position in the scientific research activity sphere (personal ability to organise and carry out students’ research activity evaluation, revealing the most important limitations, understanding of SRA importance and ways of improvement). 60 primary class teachers from more than 25 Lithuanian general education schools participated in the research. Data were analysed using a content analysis method. It has been stated, that most of the teachers value their abilities in SRA as satisfactory, though they treat the importance of SRA itself in education process as very significant.  The essential factors hindering SRA development in a primary school were ascertained, i.e. supply limitations related to material and financial difficulties and organisational/ human factors.

Keywords

Content analysis, qualitative research, primary school, scientific research activity

Full Text:

PDF

References

Andersen, P., & Vandehey, M. (2012). Career counselling and development. United States of America: Brooks/Cole.

Cooper, D. R., & Schindler, P. S. (2014). Business research methods. New York: McGrew-Hill.

Dhanapal, S., & Wan Zi Shan, E. (2014). A study on the effectiveness of hands-on experiments in learning science among year 4 students. International Online Journal of Primary Education, 3(1), 29-40.

Evans, C., Waring, M., & Christodoulou, A. (2017). Building teachers’ research literacy: integrating practice and research. Research Papers in Education, 32(4), 403-423.

Isaac, S., & Michael, W. B. (1995). Handbook in Research and Evaluation. San Diego: EdITS.

Jeanpierre, B., Oberhauser, K., & Freeman, C. (2005). Characteristics of professional development that effect change in secondary science teachers’ classroom practices. Journal of Research in Science Teaching, 42(6), 668-690.

Jovaiša, L. (2001). Edukologijos pradmenys [Educational foundation]. Šiauliai: Šiaulių universiteto leidykla.

Keys, C. W., & Bryan, L. A. (2001). Co-constructing inquiry-based science with teachers: essential research for lasting reform. Journal of Research in Science Teaching, 38(6), 631-645.

Lamanauskas, V. (2005). Kai kurios metodologinės gamtamokslinio ugdymo tyrimų kryptys [Some methodological trends of scientific studies of the natural science education]. Gamtamokslinis ugdymas / Natural Science Education, 1(12), 11-25.

Lamanauskas, V. (2008). Gamtamokslinis ugdymas mokykloje - neatsiejama bendrojo ugdymo dalis [Science education at school - an inseparable part of general education]. Kn.: Gamtamokslinis ugdymas bendrojo lavinimo mokykloje - 2008 (XIV nacionalinės mokslinės-praktinės konferencijos straipsnių rinkinys, Utena, 2008m. balandžio mėn. 25-26 d., p. 5-8). Šiauliai.

Lamanauskas, V. (2018). Gamtamokslinio ugdymo procesas pradinėje mokykloje: organizavimo ir gerinimo aspektai [Natural science education process in primary school: Organisation and improvement aspects]. Gamtamokslinis ugdymas bendrojo ugdymo mokykloje - 2018 / Natural Science Education in a Comprehensive School, 24, 24-32.

Lukočienė, V. (2017). Tiriamoji veikla pradinių klasių gamtos pamokose [Research activities in nature lessons at a primary school]. Gamtamokslinis ugdymas bendrojo ugdymo mokykloje / Natural Science Education in a Comprehensive School, XXIII, 33-37.

Lukočienė, V. (2018). Konferencija kaip mokymosi metodas ir jo taikymas pradiniame ugdyme [The conference as a learning method and its application in primary education]. Gamtamokslinis ugdymas bendrojo ugdymo mokykloje / Natural Science Education in a Comprehensive School, XXIV, 29-33.

Mack, N., Woodsong, C., Macqueen, KM., Guest, G., & Namey, E., (2005). Qualitative research methods: a data collector’s field guide. Research Triangle Park, NC: Family Health International.

Maggi, S. B. (2000). Problem-based learning in higher education: untold stories. London: Open University Press.

Markova, R. I., Rezvanceva, V. N., Storozheva, G. V., & Judkina, L. I. (2017). Issledovatel'skaja dejatel'nost' v nachal'noj shkole na urokah tehnologii kak sredstvo razvitija tvorcheskih sposobnostej [Research activities in primary school at the lessons of technology as a means of developing creative abilities]. Molodoj uchenyj / Young Scientist, 7, 449-450.

Marshall, G. B., & Rossman, C. (2011). Designing qualitative research. London: Sage.

Metų nacionaliniai mokinių pasiekimų tyrimai 2015. Ataskaita. [National student achievement studies 2015. Report]. Retrieved from http://nec.lt/failai/6728_2015_NMPT_ataskaita..pdf.

Moeed, A. (2013). Science investigation that best supports student learning: teachers understanding of science investigation. International Journal of Environmental and Science Education, 8, 537-559.

Paul, R., Binker, A. J., Martin, D., & Adamson, K. (1989). Critical thinking handbook: High school. New York: Sonoma State University.

Petty, G. (2009). Evidence - based teaching: a practical approach. Cheltenham: Nelson Thornes.

Petrauskienė, G., & Vėželytė, R. (2018). Projektinis gamtamokslinis ugdymas priešmokyklinėje grupėje [The project-based natural science education in a preschool children’s group]. Gamtamokslinis ugdymas bendrojo ugdymo mokykloje / Natural Science Education in a Comprehensive School, XXIV, 51-55.

Said, Z., Friesen, H., & Al-Ezzah, H. (2014). The importance of practical activities in school science: Perspectives of independent school teachers in Qatari schools. In Proceedings of EDULEARN14 Conference (7th-9th July 2014, Barcelona, Spain), pp. 4847-4856. Barcelona.

Savičienė, D. (2013). Praktinės veiklos metodų taikymas ugdant pažintinius mokinių gebėjimus [The application of practical activity methods for educating student cognitive abilities]. Gamtamokslinis ugdymas bendrojo ugdymo mokykloje / Natural Science Education in a Comprehensive School, XIX, 92-98.

Suduc, A. M., Bizoi, M., & Gorghiu, G. (2015). Inquiry based science learning in primary education. Procedia - Social and Behavioral Sciences, 205, 474-479.

Worth, K. (2010). Science in early childhood classrooms: content and process. Early Childhood Research & Practice (ECRP), 12(2). Retrieved from http://ecrp.illinois.edu/beyond/seed/worth.html.

Yıldırım, A., & Şimşek, H. (2011). Sosyal Bilimlerde Nitel Araştırma Yöntemleri [Qualitative research methods in the social sciences]. Ankara: Seçkin Publishing.


DOI: https://doi.org/10.26220/rev.2938

View Counter: Abstract | 457 | times, and PDF | 197 | times



Re S M ICT E | ISSN: 1792-3999 (electronic), 1791-261X (print) | Laboratory of Didactics of Sciences, Mathematics and ICT, Department of Educational Sciences and Early Childhood Education - University of Patras.

Pasithee | Library & Information Center | University of Patras