Interest for STEM Professions at School:
Problems of Career Guidance

Kolesnikova E.M.

Cand. Sci. (Sociol.), Senior Researcher, Institute of Sociology of FCTAS RAS, Moscow, Russia

Kudenko I.А.

Cand. Sci. (Geography), Mast. Sci. (Polit.), Lead Adviser on Impact Evaluation, Education Development Trust, a UK-based international educational charity providing programme interventions, consulting services and public research, Berkshire, Great Britain

DOI: 10.31857/S013216250009117-1
ID of the Article: 8109

For citation:

Kolesnikova E.M., Kudenko I.А. Interest for STEM Professions at School: Problems of Career Guidance. Sotsiologicheskie issledovaniya [Sociological Studies]. 2020. No 4. P. 124-133


The popularization of technical and engineering professions and involvement of the most motivated and successful bright school students in them requires not just a development of interest for the core academic subjects of the school program, but shaping of ideas, views about future professions. Growing numbers of pre-professional classes help to attract students interested for school STEM subjects and future careers in STEM. But at the same time, a lack of attention from the other students to STEM competencies potentially contributes to the reducing of their social chances in the future. Lacking awareness of STEM professions at school is particularly important in reducing interest in such careers among girls, supporting gender imbalance in employment. The object of the study was students of high schools in Moscow, a region with high activity in the field of STEM career guidance. 305 schoolchildren took part in the survey. The survey was conducted in May 2019 and involved students enrolled in STEM profile classes with or without a different specialization. The survey used a questionnaire for students from the multinational project “ECB – InGenious Project”. The results suggest that the Russian and European communities of specialists in education, science, and engineering face common challenges in forming future STEM personnel.

sociology of professions; engineer; reproduction of engineering personnel; STEM; school; career guidance; career choice; gender stereotypes


Archer L., Dawson E., DeWitt J., Seakins A., Wong B. (2015) “Science Capital”: A Conceptual, Methodological, and Empirical Argument for Extending Bourdieusian Notions of Capital beyond the Arts. Journal of Research in Science Teaching. Vol. 52. No. 7: 922–948. DOI: 10.1002/sce.21208.

ASPIRES. (2013) Project Final Report: Young People’s Science and Career Aspirations, Age 10–14. London: King’s College London.

Cech E. (2014) Engineers and Engineeresses? Self-conceptions and the Development of Gendered Professional Identities. Sociological Perspectives. Vol. 58. No. 1: 56–77. DOI: 10.1177/0731121414556543.

Cleaves A. (2005) The Formation of Science Choices in Secondary School. International Journal of Science Education. Vol. 27. No. 4: 471–486. DOI: 10.1080/0950069042000323746.

Denisova I.A., Kartseva M.A. (2005) Benefits of Engineering Education: Assessment of the Returns to Educational Specialization in Russia. Preprint WP3 /2005/ 02. Moscow: GU VShE. (In Russ.)

Education in Figures: Pocket Data Book. (2018) Leonid Gokhberg, Galina Kovaleva, Natalia Kovaleva et al.; National Research University Higher School of Economics. Moscow: HSE. (In Russ.)

Gimpelson V.E., Kapeliushnikov R.I. (eds) (2011) Russian Employee: Education, Occupation, Qualification. Moscow: Izd. dom Vysshey shkoly ekonomiki. DOI: 10.17323/978-5-7598-0901-2. (In Russ.)

Gimpelson V.E., Kapelyushnikov R.I., Karabchuk T.S., Ryzhikova Z.A., Bilyak T.A. (2009) Choice of Profession: What Did You Learn and Where Did You Come in Handy? Ekonomicheskiy zhurnal VShE [The HSE Economic Journal]. Vol. 13. No. 2: 172–216. (In Russ.)

InGenious Final Evaluation Report. (2014) URL: ingenious-project (accessed 12.01.20).

Jenkins E., Nelson N.W. (2005) Important but not for Me: Students Attitudes toward Secondary School Science in England. Research in Science & Technological Education. Vol. 23. No. 1: 41–57.

Kalabikhina I.E. (2017) New Approaches to Measuring Women’s Representation in STEM-education and STEM-employment. Zhenshchina v Rossijskom obshchestve [Woman in Russian Society]. No. 1: 5–16. (In Russ.)

Kemmet E.V. (2017) Gender Asymmetry in the Professional Community of Engineers. Vestnik Nizhegorodskogo universiteta imeni N.I. Lobachevskogo. Seriya: Sotsial’nye nauki [Vestnik of Lobachevsky State University of Nizhni Novgorod. Series: Social Sciences]. No. 1(45): 140–145. (In Russ.)

Kudenko I., Simarro C., Pintó R. (2017) Fostering European Students’ STEM Vocational Choices. In: Cognitive and Affective Aspects in Science Education Research: Selected Papers from the ESERA 2015 Conference. Cham: Springer International Publishing AG: 323–338.

Riegle-Crumb C., Moore C., Ramos-Wada A. (2011) Who Wants to Have a Career in Science or Math? Exploring Adolescents’ Future Aspirations by Gender and Race/Ethnicity. Science Education. Vol. 95. No. 3: 458–476. DOI: 10.1002/sce.20431.

Rohaan E.J., Taconis R., Jochems W. (2010) Reviewing the Relations between Teachers’ Knowledge and Pupils’ Attitude in the Field of Primary Technology Education. International Journal of Technology and Design Education. No. 20: 15–26. DOI: 10.1007/s10798-008-9055-7.

Women in the USSR, 1990. Stat. materials. (1990) Moscow: Financy i statistika. (In Russ.)

Yaroshenko S. (2001) Gender Differences in Employment Strategies of the Official Poor in Russia. Rubezh [Edge]. No. 17: 25–49. (In Russ.)

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