“Literally I Grew Up” Secondary–Tertiary Transition in Mathematics for Engineering Students beyond the Purely Cognitive Aspects-Reference-Cited by-同舟云学术

“Literally I Grew Up” Secondary–Tertiary Transition in Mathematics for Engineering Students beyond the Purely Cognitive Aspects

Published:2023-01-01 Issue:1 Volume:5 Page:
ISSN:2544-7831
Container-title:Open Education Studies
language:en
Short-container-title:

Author:

Vinerean Mirela¹,Liljekvist Yvonne¹,Bengü Elif²

Affiliation:

1. Department of Mathematics and Computer Science, Karlstad University , Karlstad , Sweden

2. Abdullah Gül University , Kayseri , Turkiye

Abstract

AbstractHigh dropout rates in the first year of undergraduate studies are an expression of the secondary–tertiary transition problem and they seem to be particularly high in those degree programs where specialized mathematics courses are taught in the first year of study. Research shows that students’ difficulties during the transition period cannot be reduced to purely cognitive factors. In this article, we address the secondary–tertiary transition problem in mathematics for engineering students. Based on a questionnaire with focus beyond the purely cognitive aspects, a comparison of the transition problem at three European mid-sized universities is carried out, to identify common challenges and difficulties, as well as differences. The questionnaire concentrates on the four dimensions (personal, organizational, content related, and social) and corresponding critical requirements for a successful transition described in Trautwein, C., & Bosse, E. (2017). The first year in higher education – critical requirements from the student perspective.Higher Education,73, 371–387. A group of 308 first-year engineering students partook in the study. In the presentation, we highlight students’ perceptions regarding the transition, changes, and challenges they experienced under the above-mentioned four dimensions and discuss similarities and differences between countries.

Publisher

Walter de Gruyter GmbH

Subject

Social Sciences (miscellaneous),Developmental and Educational Psychology,Education

Link

https://www.degruyter.com/document/doi/10.1515/edu-2022-0184/pdf

Reference27 articles.

1. Bergsten, C., & Jablonka, E. (2015). The construction of the ‘transition problem’ by a group of mathematics lecturers. In K. Krainer & N. Vondrová (Eds.), Proceedings of the ninth congress of the European society for research in mathematics education (pp. 2053–2059). Prague, Czech Republic: Charles University in Prague, Faculty of Education and ERME. https://hal.archives-ouvertes.fr/hal-01288577/document.

2. Bryman, A. (2004). Social research methods. Oxford, UK: Oxford University Press.

3. Cheng, M., Barnes, G., Edwards, C., Valyrakis, M., Corduneanu, R., & Koukou M. (2015). Transition skill strategies: Transition models and how students experience change. Glasgow: The Quality Assurance Agency for Higher Education. https://www.enhancementthemes.ac.uk/docs/ethemes/student-transitions/transition-models-and-how-students-experience-change.pdf.

4. Clark, M., & Lovric, M. (2009). Understanding secondary–tertiary transition in mathematics. International Journal of Mathematical Education in Science and Technology, 40(6), 755–776. 10.1080/00207390902912878.

5. Coertjens, L., Brahm, T., Trautwein, C., & Lindblom-Ylänne, S. (2017). Students’ transition into higher education from an international perspective. Higher Education, 73, 357–369. 10.1007/s10734-016-0092-y.