Study the Relationship Between Teacher Literacy and Student Learning Outcomes in Math

Authors

  • Yingzi Wu Rajamangala University of Technology Krungthep
    Thailand
  • Nur Fauziyah Rajamangala University of Technology Krungthep
    Thailand

Keywords:

Teacher Technology Literacy, Curriculum Design, Attitude towards Technology, Learning Outcome

Abstract

The rapid development of science and technology significantly improved the quality and efficiency of education. This paper aimed to study mathematics, the most important subject in high school education, and explored how teachers' technological literacy, curriculum design, attitudes towards technology, and professional development for technology integration affected the student learning outcomes in the form of a questionnaire about 214 teachers who participated. The objective consistency index (IOC) was used to evaluate the content validity of the project during the research phase. The results showed that, except for one item, all other items exhibited good consistency. From most to least significant, the factors influencing student learning outcomes are teachers' technical literacy > curriculum design > attitude toward technology > development of mathematics education for teachers, with correlation coefficients of 0.608, 0.447, 0.436, and 0.289, respectively. Teacher technological literacy, curriculum design, and attitude toward technology were significantly positively correlated with student learning outcomes and could promote learning effectiveness. Technology was developing rapidly. Teachers' technical literacy, curriculum design, and attitude towards technology were all actively changed with the times, effectively stimulating students' interest in learning from multiple dimensions and thus improving students' confidence in learning.

References

[1]. Huang, H., & Chantamala, O. (2022). Role of Quanzhou Puppet Theater in China Mahasarakham University.

[2]. Amin, S., Utaya, S., Bachri, S., Sumarmi, S., & Susilo, S. (2020). Effect of problem-based learning on critical thinking skills and environmental attitude. Journal for the Education of Gifted Young Scientists, 8(2), 743-755.

[3]. Elkordy, A., & Iovinelli, J. (2021). Competencies, culture, and change: A model for digital transformation in K-12 educational contexts. Digital transformation of learning organizations, 203-218.

[4]. Gomez, F. C., Trespalacios, J., Hsu, Y.-C., & Yang, D. (2022). Exploring teachers' technology integration self-efficacy through the 2017 ISTE Standards. TechTrends, 1-13.

[5]. Laliberté, A. (2024). 'Buddhism (s) for this World' Engaged Buddhism': Some Key Differences. Journal of Social Innovation and Knowledge, 1(aop), 1-21.

[6]. Bandyopadhyay, S., Bardhan, A., Dey, P., & Bhattacharyya, S. (2021). Bridging the education divide using social technologies. Springer.

[7]. Ioannidi, V., & Malafantis, K. D. (2022). Inclusive education and pedagogy: a practice for all students. European Journal of Education Studies, 9(10).

[8]. Li, H., & Wang, Q. (2021). Interactive whiteboards and geometric visualization in Shanghai primary schools. International Journal of Mathematics Education in East Asia, 9(2), 145-160.

[9]. Chen, X., & Liu, Y. (2022). The impact of virtual manipulatives on fraction comprehension in primary education. Journal of Educational Technology in Mathematics, 15(3), 287-302.

[10]. Wu, J., & Huang, L. (2024). Gamification in mathematics education: A case study of Shanghai's primary schools. Educational Technology Research and Development, 72(1), 78-95.

[11]. Margulies, H. (2024). An Encounter Between Engaged Pure-Land Buddhism and the Dialogical Philosophy of Martin Buber. Journal of Social Innovation and Knowledge, 1(aop), 1-17.

[12]. Hung, C. M., Huang, I., & Hwang, G. J. (2014). Effects of digital game-based learning on students' self-efficacy, motivation, anxiety, and achievements in learning mathematics. Journal of Computers in Education, 1(2-3), 151-166.

[13]. Drijvers, P. (2015). Digital technology in mathematics education: Why it works (or does not). In Selected Regular Lectures from the 12th International Congress on Mathematical Education (pp. 135-151). Springer, Cham.

[14]. WU, S. (2023). Examining the roles of family and school social capital on academic achievements of sixth-grade students between migrant private schools and public schools in Bao'an district, Shenzhen city.

[15]. Yurtseven Avci, Z., O'Dwyer, L. M., & Lawson, J. (2020). Designing effective professional development for technology integration in schools. Journal of Computer Assisted Learning, 36(2), 160-177.

[16]. RJ Rovinelli, RK Hambleton. (1977). On the use of content specialists in the assessment of criterion-referenced test item validity. Tijdschrift Voor Onderwijsresearch, 0301, 1-37.

Downloads

Published

2025-06-21

How to Cite

Wu, Y., & Fauziyah, N. (2025). Study the Relationship Between Teacher Literacy and Student Learning Outcomes in Math. Prosiding University Research Colloquium, 20, 64–77. Retrieved from https://repository.urecol.org/index.php/proceeding/article/view/787

Issue

Proceeding of The 20th University Research Colloquium 2025: Bidang Pendidikan, Humaniora dan Agama

Section

Articles

License

Copyright (c) 2025 Yingzi Wu, Nur Fauziyah

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.