Education Management in the Development of Contextual Problems Using Mobile Augmented Reality to Support Mechanical Engineering Students Creativity in Learning Mathematics

Authors

  • Khoerul Umam University Prof. DR. HAMKA
  • Arum Fatayan University Prof. DR. HAMKA
  • . Irdalisa University Prof. DR. HAMKA
  • Yessy Yanita Sari University Prof. DR. HAMKA
  • Isha Awang University Utara Malaysia

DOI:

https://doi.org/10.33423/jhetp.v24i6.7029

Keywords:

higher education, augmented reality, contextual problems, creative thinking

Abstract

There are still many mechanical engineering students who are passive in learning activities. The aim of this research is to create Mobile Augmented Reality to provide contextual problems to mechanical engineering students. So, students can imagine and be active in learning. The method used is 4D development (Define, Design, Develop, and Disseminate). Apart from that, it uses quantitative research to influence the use of mobile augmented reality. Next is qualitative research to analyze the use of mobile augmented reality. The conclusion of this research states that there is a significant influence on the activeness and creativity of mechanical engineering students after developing and using mobile augmented reality in mathematics learning activities.

References

Bower, M., Howe, C., McCredie, N., Robinson, A., & Grover, D. (2014). Augmented Reality in education — Cases, places and potentials. Educational Media International, 51(1), 1–15.

Czerkawski, B., & Berti, M. (2021). Learning experience design for augmented reality. Research in Learning Technology, 29(1063519), 1–12.

Duma, Y.S., Sa’dijah, C., Hidayanto, E., & Irawati, S. (2023). Analytic geometry problems are completed by symbolic visualization of representation: A case of a future teacher. Journal of Higher Education Theory and Practice, 23, 55–64.

Estrada, J., Paheding, S., Yang, X., & Niyaz, Q. (2022). Deep-learning-incorporated augmented reality application for engineering lab training. Applied Sciences (Switzerland), 12(10).

Fatayan, A., Ayu, S., & Umam, K. (2023). Enhancing learning motivation of university students in Indonesia with the RADEC model and Google Earth. World Transactions on Engineering and Technology Education, 21(2), 128–133.

Fatimah, S., Setiawan, W., Juniati, E., & Surur, A.S. (2019). Development of smart content model-based augmented reality to support smart learning. Journal of Science Learning, 2(2), 65.

Fernández-López, M. (2022). Exploring forward-thinking technology perspectives of sustainable development for the year 2030 in the identity of engineering students. Global Journal of Engineering Education, 24(1), 14–20.

Lee, S.Y., Lo, Y.H.G., & Chin, T.C. (2021). Practicing multiliteracies to enhance EFL learners’ meaning making process and language development: A multimodal Problem-based approach. Computer Assisted Language Learning, 34(1–2), 66–91

Maarif, S., Umam, K., Soebagyo, J., & Pradipta, T.R. (2022). Critical review on mathematics virtual classroom practice in private university. International Journal of Nonlinear Analysis and Applications, 13(1), 975–982.

Naseem, A., Akram Rana, R., Bashir, I., Ahmed Khan, K., Ghafoor, A., Malik, A., & Professor, A. (2022). Development And Validation Of Afshan Mathematics Anxiety Scale (Afmas). Webology, 19(3), 1735–188.

Nurhayati, Marhayani, D.A., Chang, C.H., & Naaranoja, M. (2019). Math anxiety analysis in Indonesian elementary school. In Communications in Computer and Information Science (Vol. 1011).

Smit, R., Dober, H., Hess, K., Bachmann, P., & Birri, T. (2022). Supporting primary students’ mathematical reasoning practice: The effects of formative feedback and the mediating role of self-efficacy. Research in Mathematics Education, 0(0), 1–24.

Tien, D.T.K., & Namasivayam, S.N. (2023). Transformative learning in engineering education: The improved people and relational skills outcome. Global Journal of Engineering Education, 25(2), 112–116.

Toheri, Winarso, W., & Haqq, A.A. (2020). Where exactly for enhance critical and creative thinking: The use of problem posing or contextual learning. European Journal of Educational Research, 9(2), 877–887.

Umam, K., Suswandari, Asiah, N., Wibowo, I.T., & Rohim, S. (2017). The effect of think-pair-share cooperative learning model assisted with ICT on mathematical problem solving ability among junior high school students. ICCE 2017 - 25th International Conference on Computers in Education: Technology and Innovation: Computer-Based Educational Systems for the 21st Century, Workshop Proceedings, pp. 94–98.

Vilca, S.V.C., Figueroa, C.M.A., Mendoza, C.J., Huillca, E.A.S., Leon, E.O.O., & Falcon, M.H.F. (2023). Attitude towards virtual tutoring in higher education. Journal of Higher Education Theory and Practice, 23(20), 34–38.

Visscher, D., & White, N. (2020). Measuring mathematics engagement anxiety. International Journal of Research in Undergraduate Mathematics Education, 6, 113–144.

Downloads

Published

2024-06-12

How to Cite

Umam, K., Fatayan, A., Irdalisa, ., Sari, Y. Y., & Awang, I. (2024). Education Management in the Development of Contextual Problems Using Mobile Augmented Reality to Support Mechanical Engineering Students Creativity in Learning Mathematics. Journal of Higher Education Theory and Practice, 24(6). https://doi.org/10.33423/jhetp.v24i6.7029

Issue

Section

Articles