ASSESSMENT OF EARLY CHILDHOOD EDUCATORS’ COMPETENCE IN FACILITATING SCIENTIFIC PLAY- LEARN ACTIVITIES IN EARLY CHILDHOOD EDUCATION CENTRES IN DELTA STATE
DOI:
https://doi.org/10.14738/assrj.812.11346Abstract
Abstract
The study identified the scientific play-learn activities practiced in early childhood education centres in Delta state and investigated the academic qualifications of the early childhood educators. It also assessed the scientific play-learn skills of the early childhood educators and examined the relationship between early childhood educators’ qualifications and scientific play-learn activities facilitation skills in the study area. These were with a view to providing succinct information about early childhood educators’ competence in facilitating scientific play-learn activities in early childhood centres in the State. The study adopted a descriptive survey research design. The population of the study comprised all early childhood educators in the State. The sample for the study consisted of 360 early childhood educators drawn from the three senatorial districts in the state using multistage sampling procedure. One self-designed instrument titled ‘‘Early Childhood Educators’ Competence in Science Play-learn Activities Questionnaire’’ (ECECSPAQ) was used for data collection. The data collected were analysed using frequency count, percentage, and regression analysis. The results of the study showed that 29.5% of early childhood educators in all the centres practised gravity, 22.3% practised motion, 16.4% practised electricity, 46.4% practised sound, and 24.2% practised air and wind. The results further showed that 16.1 % of the early childhood educators had senior school certificate, 11.4% had ND certificate, 20.6% had TC11 and NCE, 14.4% had HND, 4.7% had certificate in Nursery and Primary education while 10.5% also had certificate in science areas. The results also showed that early childhood educators possessed very low level of scientific play-learn skills (21.90%). The results finally showed a significant relationship of early childhood educators’ qualifications on scientific play-learn activities facilitation skills (F = 2.547, p < 0.05). The study concluded that early childhood educators possessed low competence in embarking on rich scientific play-learn activities necessary to promote science learning in children.
References
References
Aykut, Ö. (2006). Bazı Değişkenlerin Okul Öncesi Eğitimi Öğretmenlerinin Fen ve Doğa Çalışmalarına İlişkin Görüşlerine Etkisi. Yayımlanmamış Yüksek Lisans Tezi, Gazi Üniversitesi Eğitim Bilimleri Enstitüsü, Ankara.
Bilaloğlu, R., Aslan, D., and Arnas, A. Y. (2008). Okul öncesi öğretmenlerinin fen etkinliklerine ilişkin bilgi düzeylerinin incelenmesi. Milli Eğitim Dergisi, 178, 88-104.
Brenneman, Kimberly; Stevenson-Boyd, Judi; and Frede, Ellen C. (2009). Math and science in preschool: Policies and practice. Preschool Policy Brief, 19. New Brunswick, NJ: National Institute for Early Education Research
Broadhead, P. (2004). Early years play and learning: Developing social skills and co-operation. London: RoutledgeFalmer.
Çamlıbel Çakmak, Ö. (2006). Okul Öncesi Öğretmen Adaylarının Fene Ve Fen ÖğretimineYönelik Tutumları İle Bazı Fen Kavramlarını Anlama Düzeyleri Arasındaki İlişkininİncelenmesi. Yayımlanmamış Yüksek Lisans Tezi, Abant İzzet Baysal Üniversitesi SosyalBilimler Enstitüsü, Bolu
Locke, J. ([1664]1997). Essays on the law of nature. In M, Goldie (Ed.), Locke: political writing. Cambridge, UK: CUP.
Vouloumanos, A., and Werker, J.F. (2007). Listening to languages at birth: Evidence for a bias for speech in neonates.DevelopmentalScience, 10 (2), 159-164.
Eshach, H. (2006). Science literacy in primary schools and pre-schools. Dordrecht, The Netherlands: Springer.
Duschl, R., Schwingruber, H., and Shouse, A. (2007). Taking science to school: Learning and Teaching science in grades K-8. Washington, DC: National Academics Press; Board on Science Education, Center for Education, Division of Behavioral and Social Sciences and Education.
DeWitt, J., Archer, L., &Mau,A.(2016). Dimensions of science capital: Exploring its potential for understanding students’ science participation. International Journal of Science Education, 38 (16), 2431-2449.
Edwards, K., and Loveridge, J. (2011). The inside story: looking into early childhood Teachers' support of children's scientific learning. Australian Journal of Early Childhood, 36(2), 28-35.
Early, D.M., I.U. Iruka, S. Ritchie, O.A. Barbarin, D.C. Winn, G.M. Crawford, P.M. Frome, R.M. Clifford, M. Burchinal, C. Howes, D.M. Bryant, and R.C. Pianta. (2010). How do pre-kindergarteners spend their time? Gender, ethnicity, and income as predictors of experiences in pre-kindergarten classrooms. Early Childhood Education Quarterly 25(2), 177–93.
Eshach, H. (2006). Science literacy in primary schools and pre-schools. Dordrecht, The Netherlands: Springer.
Eshach, H., and Fried, M. N. (2005). Should science be taught in early childhood? Journal of Science Education and Technology, 14(3), 315–335.
French, L. (2004). Science as the center of a coherent, integrated early childhood curriculum. Early Childhood Research Quarterly, 19(1), 138.
Glazer, N. (2011). Challenges with graph interpretation: A review of the literature. Studies in Science Education, 47 (2), 183–210.
Greenfield, Daryl B.; Jirout, Jamie; Dominguez, Ximena; Greenberg, Ariela; Maier, Michelle; and Fuccillo, Janna. (2009) Science in the preschool classroom: A programmatic research agenda to improve science readiness. Early Education and Development, 20 (2), 238-264
Haslip, M.J., & Gullo,D.F. (2018). The changing landscape of early childhood education: Implications for policy and practice. Early Childhood Educational Journal, 46, 249-264.
Kallery, M. (2004). Early years teachers’ late concerns and perceived needs in science: an exploratory study. European Journal of Teacher Education, 27 (2),147-165.
Karaer, H. v and Kösterelioğlu, M. (2005). Amasya ve Sinop illerinde çalışan okul öncesiöğretmenlerinin fen kavramlarının öğretilmesinde kullandıkları yöntemlerinbelirlenmesi. Kastamonu Eğitim Dergisi. 13(2), 447-454. Retrieved March 03, 2015from http://www.Kefdergi.com/pdf/13_2/13_2_14.pdf
Kloos, H., Baker, H., Luken, E., Brown, R., D., Pfeiffer, D. and Carr, V. (2012). Preschoolers learning science: Myth or reality? In H. Kloos, B. J. Morris and J. L.Amaral (Eds.), Current topics in children's learning and cognition (pp.45- 60).
Rijeka,Croatia:Tech-Open Access Publisher. Retrieved February 07, 2015 fromhttp://cdn.Intechopen.com/pdfs/40973/InTechPreschoolers_learning_scie ce_myth _or_reality.
Metz, K. (2009). Rethinking what is ‘‘developmentally appropriate’’ from a learning progression perspective: The power and the challenge. Review of Science, Mathematics and ICT Education, 3(1), 5-22.
Olajide, S. O and Aladejana, F. O. (2019). Comparative effectiveness of three active learning strategies in transforming learners’ outcomes in basic science for social
change in Osun State. IOSR Journal of Humanities and Social Science. Vol.24 (8)
-41
Oliva, A. J; Fernandez Lozano, P. F; Martin Delpozo, R; Ballesteros, M. G; Pesquero Franco, E; and Martin, S. E. (2009). Comparative study of the evaluation of professional competencies by experienced and trainee Spanish Primary Teachers.
European Journal of Teacher Education, 32 (4) 437-454
Özbek, S. (2009). Okul öncesi öğretmenlerinin fen eğitimine ilişkin görüşleri ve uygulamalarının incelenmesi. Unpublished master's thesis. Çukurova Üniversitesi Sosyal Bilimler Enstitüsü, Adana
Pendergasti, E., Lierberman-Betz R.G. & Vail. C.O (2015). Attitudes and beliefs of prekindergarten teachers toward teaching science to young children. Early Chilhood Educational Journal 45: 43-52.
Pozo, R. M.; Oliva (2009), A.D. La formación inicial en competencias valorada por los maestros en activo. REIFOP – Revista Interuniversitaria de Formación del Profesorado, Zaragoza, Vol. 12, (3), 59-69.
Randy L., Bell and Tyler L. St.Clair (2015). Too little, too late: Addressing nature of science in early childhood education. Research in Early Childhood Science Education, 125-141.
Tu, T. (2006). Preschool science environment: What is available in a preschool classroom? Early Childhood Education Journal, 33(4), 245–251.
Tu, T., & Hsiao, W. (2008). Preschool teacher-child verbal interactions in science teaching. Electronic Journal of Science Education,12.
Thulin, S. 2011. ‘‘La¨rares tal och barns nyfikenhet: Kommunikation omnaturvetenskapliga inneha°ll i fo¨rskolan [Teacher Talk and Children’s Queries: Communication about Natural Science in Early Childhood Education].’’ PhD diss., University of Gothenburg.
Trundle, K. C., (2014). Teaching Science during the Early Childhood Years. Best Practices in Science Education
Ünal, M. &Akman, B. (2006). Okul Öncesi Öğretmenlerinin Fen Eğitimine Karşı Gösterdikleri Tutumlar. H.Ü.Eğitim Fakültesi Dergisi. (30) 251–257.
Uysal, D. (2007). Okulöncesi eğitim kurumlarında uygulanan fen ve doğa etkinliklerinin işlevselliğine ilişkin öğretmen görüşleri. Unpublished Master’s Thesis. Anadolu University, Institute of Education Sciences, Eskişehir.
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