FEMALE STUDENTS PERCEPTION ON CHALLENGES AND OPPORTUNITIES FOR THEIR GENDER IN ENGINEERING TECHNOLOGY STUDIES AND THE PROFESSION

Alia Zahirah  Zakaria; Muhammad Faiz Mohd  Farrid; Muhammad Syadi Zakhwan  Serkawi; Norkhairi Ahmad; Mohd Hanafia  Huridi

doi:10.47701/frasa.v6i1.4849

Authors

Alia Zahirah Zakaria Universiti Kuala Lumpur Malaysia
Muhammad Faiz Mohd Farrid Universiti Kuala Lumpur Malaysia
Muhammad Syadi Zakhwan Serkawi Universiti Kuala Lumpur Malaysia
Norkhairi Ahmad Universiti Kuala Lumpur Malaysia
Mohd Hanafia Huridi Universiti Kuala Lumpur Malaysia

DOI:

https://doi.org/10.47701/frasa.v6i1.4849

Keywords:

Engineering Technology, Gender Disparity, Higher Education, Student Perception

Abstract

The field of engineering technology has been historically dominated by male students, resulting in a significant gender disparity in many countries. Female students pursuing engineering technology courses face unique challenges that can hinder their success and participation in the field. This research aims to explore the challenges faced by female students in engineering technology courses and present mitigating strategies to address the issues. A combination of basic quantitative survey was undertaken on a sampling of third year female students at a private engineering technology university. A qualitative interview was also conducted on a senior female academic staff who had extensive work experience in the field prior to become an academic. This served as a triangulation to the responses obtained from the surveyed respondents. Findings from the study shows that the challenges faced by the female students in engineering technology courses can be categorized into three main areas namely social and cultural barriers, academic obstacles, and lack of representation and support. As a whole, the female students have a positive perception on engineering technology as a tertiary study option and also as a career choice that they will continue to pursue. In addressing the challenges faced by female students in engineering technology courses, a multi-faceted approach is needed. The approach must also addressing social and cultural barriers and provide adequate academic support to empowers female students to thrive in engineering technology and contribute to the nation.

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References

Ahmad, N., Sayadi, Z.A., Danuri, N. A & Ismail, S. (2023). A multi-dimensional approach to managing English for specific purposes (ESP) courses and assessment practices in technical and engineering education context. In AIP Conference Proceedings (Vol.2544). https://doi.org/10.1063/5.0116414

Ahmad, N., Rahim, I. S. A., & Ahmad, S. (2021). Designing effective online Assessment implementation strategies for tertiary language courses-narratives on preliminary overview of challenges. AIP Conference Proceedings, 2347(1). https://doi.org/10.1063/5.0051487

Ahmad, N., Muhammad, A.M, & Jamil, A. (2017). Challenges in developing English for specific purposes (ESP) tests for undergraduates of engineering programmes. Man In India Journal, 97 (12): 245-254.

Ahmad, N. & Mohd Said, M. K., (2013). Synergizing hard skills and soft skills Training collaboration in enhancing industrial training experiences: Narratives of a technical engineering university. Synergy 1, TeSSHI 2012 Chapters on Humanities and Social Sciences. Volume 1. 52-68.

Buse, K., Hill, C. & Benson, K. (2017). Establishing the research agenda for increasing the representation of women in engineering and computing. Frontiers in Psychology 34(7). 23-33. https://doi.org/10.3389/fpsyg.2017.00598.

Christie, M., O’Neill, M., Rutter, K., Young, G., & Medland, A. (2017). Understanding why women are under represented in science, technology, engineering and mathematics (stem) within higher education: a regional case study. Production, 27(2), e20162205.http://dx.doi.org/ 10.590/0103- 6513.220516.

DeBoer, J. & Ater Kranov, A. (2017). Key Factors in the Tertiary Educational Trajectories of Women in Engineering: Trends and Opportunities in Saudi Arabia,the GCC, and Comparative National Settings. Gerlach Press. (2017). http://www.jstor.org/stable/j.ctt1m3p2gh.7.

Dudley, D., Joy, W., Powley, G. & Wetterberg, W. (2013). Women in non-traditional occupation stories to inspire. Government of Alberta, Human Services.

Fisher, M. J., & Marshall, A. P. (2009). Understanding descriptive statistics. Australian Critical Care, 22(2), 93–97. https://doi.org/j.aucc.2008.11.003

Galy-Badenas, F. (2015). A qualitative study of male and female perceptions in differences in the working and domestic sphere: A comparison of the French and Finnish cultures. University of Jyväskylä, Department of Communication.

Gutknecht, M. (2016). Women in engineering: Females feel less respected in male dominated workforces. http://www.thepostathens. com/article/2016/10/women-in engineering-sexism-respect.

Hamdan, S. H. (2013). Kecenderungan graduan wanita kejuruteraan terhadap Pemilihan profesion kerjaya bukan jurutera. Universiti Tun Hussein Onn Malaysia, Batu Pahat, Johor, Malaysia.

Hansen, R. S. (2016). The pros and cons of non-traditional careers: Working in jobs that defy gender stereotypes. Quintessential Careers. Retrieved via:

https://www.livecareer.com/quintessential/pros-cons-non-traditional-careers.

Kadayifci E.P & Gedik, E. (2016). More girls to choose engineering as a major: Perspectives from “Honey Bees are Becoming Engineers”. Project. Paper presented at 2nd International Conference on Lifelong Education and Leadership for All. 21- 24 July 2016, Liepaja, Latvia.

Kementerian Pembangunan Wanita Keluarga dan Masyarakat (KPWKM) (2016). via:https://www.kpwkm.gov.my/kpwkm/index.php?r=portal/index&id=UEVHOGpiNHpvM2o0OVFvOXpRQ24vQT09.

Krejcie, R.V., & Morgan, D.W., (1970). Determining Sample Size for Research Activities. Educational and Psychological Measurement.

Longe, O. M., & Ouahada, K. (2019). A literature review on challenges and opportunities for women - IEEE Explore. 5 (4). 12-25. https://ieeexplore.ieee.org/abstract/document/9133955/

Mahajan, P. & Golahit, S. (2017). Engineering a woman: Marketing opportunities and challenges in India. American Journal of Management Science and Engineering, 2 (1), 11-22.

Retrieved via: http://www.sciencepublishinggroupcom /journal/paperinfo?journalid=101&doi=10.11648/j.ajmse.20170201.12.

Malaysian Statistics on Women, Family and Community. (2016). Retrieved via: https://www.kpwkm.gov.my/kpwkm/uploads/files/Penerbitan/BukuPerangkaan/ Perangkaan2016.pdf.

McKay, D. R. (2017). Non-traditional Careers for Women. Retrieved via: https://www.thebalance.com/non-traditional-careers-for-women-525715.

Mishkin, H., Wangrowicz, N., Dorib, D. & Dori, Y. J. (2016). Career choice of undergraduate engineering students. Procedia - Social and Behavioral Sciences, (2016), pp. 222 – 228.

Mohammadi, A. (2017). A case study of the variables for women’s success in engineering and computing. DBER Speaker Series.108. Retrieved via: http://digitalcommons.unl.edu/dberspeakers/108.

United Nations Educational, Scientific and Cultural Organization (2017). Women still a minority in engineering and computer science.http://www.unesco.org/new/en/unesco/themes/genderequality/resources/singleviewgender/news/women_still_a_minority_in_engineering_and_computer_