Young people’s interest for key science studies and mathematics is declining and, "when looked at from a gender perspective the problem is even worse as, in general, girls are less interested in science education than boys" (European Commission, 2007). The most common goal of gender equality policies in education in most European countries is to challenge traditional gender roles and stereotypes (Eurydice, 2010). In line with this, the aim of this research is to explore the rationale behind gender differences in choosing physics and technical studies in higher education. More specifically, the focus of this research is to explore if these educational choices are made not only because of students' motivation for the field of study, but also because they are under the influence of their actualized gender roles and stereotypes about the appropriateness of these studies for men and women. Eccles and colleagues’ expectancy-value model was used as a theoretical framework for this research (Eccles, 1987).

Research shows that physics can be considered as a stereotypically male educational domain: boys have higher motivation for physics than girls (Marušić, 2006) and children still endorse stereotypes that physics is a male domain (Jugović, 2010; Whitehead, 1996). Women are also underrepresented in most of the technical courses in higher education for which knowledge in physics is important (Croatian Bureau of Statistics, 2009; National Science Fundation, 2007).

According to the expectancy-value model, the most important factors that explain gender differences in academic achievement and choices are expectations for success and subjective task values (interest, utility value and attainment value) (Eccles, 1987). This model is based in socialization theories and emphasizes the role that family and school contexts have in child’s development, e.g. how gender roles, stereotypes and different gendered expectations about child’s behavior and abilities that parents and teachers have affect child’s educational achievement and career choices. Although the theory proposes that gender roles and stereotypes are factors that influence academic achievement and choices, their role, compared to the role of the motivational factors, has rarely been empirically examined. The aim of this research was to explore the role of stereotypes, gender roles and motivational factors in the explanation of intentions of vocational choices in a stereotypically male educational domain – physics. The main research problems were to test the hypothesis of the expectancy-value model (1) that motivational factors are the most important predictors of the intentions of choosing physics at the state matura and applying for technical studies, and (2) that traditional female gender roles and endorsement of stereotypes about males’ greater talent in physics and technical careers have negative effect on girls' intentions to chose physics and apply for technical studies.

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