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International Journal of Academic Research in Progressive Education and Development

Open Access Journal

ISSN: 2226-6348

The Influence of Higher Order Thinking and Metacognitive Skills towards Hands-On Teaching among Primary School Science Teachers

Tajularipin Sulaiman, Punnithann Subramaniam, Nurzatulshima Kamarudin

http://dx.doi.org/10.6007/IJARPED/v8-i4/6497

Open access

Higher order thinking skills and metacognitive skills are essential skills in acquiring knowledge in today’s challenging world. This study examined the influence of higher order thinking and metacognitive skills on hands-on teaching in science among primary school Science teachers. The first objective of this study is to determine the level of higher order thinking and metacognitive skills among science teachers. The second is to examine the relationship between higher order thinking and metacognitive skills on hands-on teaching in science. The study used descriptive and correlation design. The findings of the descriptive analysis showed that the level of higher order thinking skills is high (M = 4.36, S.D. = 0.577) among science teachers. In addition, the findings show that metacognitive skill level was also high (M = 4.39, S.D. = 0.579). Next, the level of hands-on teaching in science is high (M = 4.37, S.D. = 0.543) among the science teachers. The findings show that there is a significant relationship between higher order thinking skills and hands-on teaching in science (r = 0.739, n = 94, p < 0.01). Besides, there is a significant relationship between metacognitive skills and hands-on teaching in science (r = 0.826, n = 94, p < 0.01). There was a stronger relationship between metacognitive skills to hands-on teaching than higher order thinking skills. Multiple regression analysis was conducted to observe the influence and the findings showed that the Beta value for metacognitive skills is higher (0.626) compared to the Beta value of higher order thinking skills (0.265). This indicates that metacognitive skills have more influence on hands-on teaching among the primary school science teachers. This study suggests that science teachers need to focus more on higher order thinking skills (HOTS) and metacognitive teaching.

Abruscato, J., & DeRossa, D. A. (2010). Teaching children Science: A discovery approach. (7th edition). Boston: Allyn & Bacon.
Yun, C. J. (2012). Kesan Penggunaan Kaedah “Hands-On” dalam Proses Pembelajaran Sains Tahun 3. Seminar Penyelidikan Tindakan IPG KBL Tahun 2012 (pp. 165-179).
Exley, K., & Dennick, R. (2004). Giving a lecture: From presenting to teaching. London: Routledge Falmer.
Darusalam, G., & Hussin, S. (2016). Metodologi penyelidikan dalam pendidikan: Amalan dan analisis kajian. Kuala Lumpur: Universiti Malaya.
Hacker, D. J., Dunlosky, J., & Graesser, A. C. (1998). The educational psychology series. Metacognition in educational theory and practice. US: Lawrence Erlbaum Associates Publishers.
Malaysia Ministry of Education. (2013). Malaysian Education BluePrint (2013-2015). Ministry of Education: Kuala Lumpur.
Malaysia Ministry of Education. (2014). Higher Order Thinking Skilss. Ministry of Education: Kuala Lumpur.
Malaysia Ministry of Education. (2014). Third International Research on Science and Mathematics. Ministry of Education: Kuala Lumpur.
Ibrahim, M. A., & Husain, R. (2014). Mastery of Observation Skill and Predicting Skill in Science among Standard Five students in Johor Bharu District. Education Journal Faculty Of Education University Teknologi Malaysia, 15(3), 35-42.
Nachiappan, S., Osman, R., Masnan, A. H., Mustafa, M. C., Hussein, H., & Suffian, S. (2019). The Development Of Preschools’ Higher Order Thinking Skills (HOTs) Teaching Model towards Improving the Quality of Teaching. International Journal of Academic Research in Progressive Education and Development, 8(2), 39–53.
Ghafar, N., Ibrahim, A. R. (2011). Evaluation of Relationship Between Level of Science Concept and Level of Science Process Skills of Teacher. Journal Of Science And Mathematics Educational, 3(2011), 1-19.
Nessel, D. D., & Graham, J. M. (2007). Thinking Strategies for student achievement: improving learning a cross the curriculum, K-12. (2nded.). Thousand oaks, Carlifonia: Corwin Press. A SAGE Publication Company.
Pallant, J. (2013). SPSS survival manual: A stepby step guide to data analysis using SPSS (5th ed.). England: McGraw Hill.

Revell, A. & Wainwright, E. (2009). What Makes Lectures "Unmissable"? Insights into Teaching Excellence and Active Learning. Journal of Geography in Higher Education, 33(2), 209-223.
Shih Ting Lee. (2009). Examining the Relationships between Metacognition, Selfregulation and Critical Thinking in Online Socratic Seminars for HighSchool Social Studies Students. The University of Texas at Austin. Doctoral Dissertation.
Synder, L.G., & Synder, M. J. (2008). Teaching Critical Thinking and Problem Solving Skills. The Delta Phi Epsilon Journal, L(2), 90-99.
Tajularipin Sulaiman & Nor Azlina Abdul Rahim. (2010). Various effective approaches in science teaching. Universiti Putra Malaysia: Publication of University Putra Malaysia.
Zainol Badli Budiman. (2008). Development of Cognitive Conflict Module and its effect on Cognitive Development and Science Achievement. National University of Malaysia. Doctoral Dissertation.

In-Text Citation: (Sulaiman, Subramaniam, & Kamarudin, 2019)
To Cite this Article: Sulaiman, T., Subramaniam, P., & Kamarudin, N. (2019). The Influence of Higher Order Thinking and Metacognitive Skills towards Hands-On Teaching among Primary School Science Teachers. International Journal of Academic Research in Progressive Education and Development, 8(4), 245–258.