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1.
Girls are underrepresented in mathematical and science Olympiads, global informal learning activities which often serve as stepping stones for admission to top universities and future STEM careers. The present article aims to investigate the role of implicit gender‐science stereotypes on representation and achievement among participants of the German Chemistry Olympiad using a cross‐sectional online study (N = 445, mean age 16.5 years, 51% female) entailing the Implicit Association Test and two motivational scales. This study was the first of its kind to use moderated mediation analysis to examine the effects of gender‐science stereotypes on participation and achievement, mediated by the expectancy and value beliefs self‐concept and topic interest. We found that in the female group, gender‐science stereotypes negatively predicted the participants' willingness to continue in the competition. This relationship was mediated through topic interest. In addition, we found self‐concept predictive for further participation among female participants, as well as for competition score among both gender groups. Furthermore, topic interest positively predicted male participants' willingness to continue with the competition. The results underline the negative association of implicit gender stereotypes with female participation in the German Chemistry Olympiad. Organizations such as the German Chemistry Olympiad should therefore critically reflect on existing gender biases within their own structure. In doing so they can create an environment that has the potential to heighten self‐concept and interest for all participants equally. Our findings add to existing expectancy‐value research in the context of gender differences in mathematics and science, supporting potential strategies toward gender equity. 相似文献
2.
Social cognitive theory guided the design of a survey to investigate high school students’ perceptions of factors affecting their career contemplations and beliefs regarding the influence of their participation in the international Science Olympiad on their subject interests and twenty-first century skills. In addition, gender differences in students’ choice of competition category were studied. Mixed methods analysis of survey returns from 172 Olympiad participants from 31 countries showed that students’ career aspirations were affected most by their teachers, personal interests, and parents, respectively. Students also indicated that they believed that their participation in the Olympiad reinforced their plan to choose a science, technology, engineering, and mathematics (STEM) major at college and assisted them in developing and improving their twenty-first century skills. Furthermore, female students’ responses indicated that their project choices were less likely to be in the engineering category and more likely to be in the environment or energy categories. Findings are discussed in the light of increasing the awareness of the role and importance of Science Olympiads in STEM career choice and finding ways to attract more female students into engineering careers. 相似文献
3.
Although gender gaps have been a major concern in male-dominated science, technology, engineering, and mathematics disciplines such as physics and engineering, the numerical dominance of female students in biology has supported the assumption that gender disparities do not exist at the undergraduate level in life sciences. Using data from 23 large introductory biology classes for majors, we examine two measures of gender disparity in biology: academic achievement and participation in whole-class discussions. We found that females consistently underperform on exams compared with males with similar overall college grade point averages. In addition, although females on average represent 60% of the students in these courses, their voices make up less than 40% of those heard responding to instructor-posed questions to the class, one of the most common ways of engaging students in large lectures. Based on these data, we propose that, despite numerical dominance of females, gender disparities remain an issue in introductory biology classrooms. For student retention and achievement in biology to be truly merit based, we need to develop strategies to equalize the opportunities for students of different genders to practice the skills they need to excel. 相似文献
4.
Fernanda Gándara Monica Silva 《International Journal of Science and Mathematics Education》2016,14(6):1079-1092
This study seeks to develop a better understanding of the underrepresentation of women in science and engineering by analyzing the gender gaps (a) in the interest in pursuing a science degree and (b) on science achievement. We use national-level college admissions data to examine gender differences and to explore the association between these outcomes and the attendance to single-sex or co-educational schools. The Chilean college admissions system provides a unique context to study these gender differences, since applicants who wish to pursue an undergraduate degree in science or engineering are required to take a high-stakes standardized science achievement test as part of the admission battery. This test has three subjects: biology, physics, and chemistry, and applicants must choose to be tested in only one of them. Significant gender differences exist for the examinees in their choice of subject and achievement on (the tests). Gender gaps favoring males are observed in the three forms. Both interest and achievement in science are associated with the sex composition of the school attended. 相似文献
5.
The problem of the underrepresentation of girls in science in Australian schools is often attributed to their poor performance. Yet the role of both the home and the school in affecting female science achievement is rarely examined empirically. The comprehensiveness of the Second International Science Study database provided an excellent opportunity to investigate the presence of gender differences in science achievement. Although previous studies of gender differences in science achievement have relied on methodology that has not adequately accounted for the school effects, this study used the design effect and hierarchical linear modeling (multilevel analysis) to explore whether there were significant gender differences. The relative contribution of schools to student achievement was examined, and school-level differences were found to contribute significantly toward explaining variations in student performance. Although statistically significant sex differences were found in physics achievement for 10-year-old, 14-year-old, and year-12 students, school effects were much more powerful in explaining student differences (9–19%) when compared with gender (3%). 相似文献
6.
Jingoo Kang Jonathan Hense Annette Scheersoi Tuula Keinonen 《International Journal of Science Education》2019,41(1):80-101
Gender disparities in STEM fields have been under extensive study, the focus of which has been on future career aspirations. However, the primary phases in gender differences are still ambiguous when examined from this perspective, possibly due to the fact that most of the studies have targeted samples of upper secondary school or college students. As such, in this study we examined the transient period to lower secondary school; our aim was to discover to what extent relationships between factors of students’ science interest and career perspectives differ between male and female. Based on previous studies and analyses, we selected three future career perspective variables – outcome, personal time, and innovation orientations – and three defining features of interest – personal value, enjoyment, and cognitive aspect. The sample was conducted in Finland and comprised of 401 grade 7 students aged 13, using a multi-group structural equation modelling. This study found that during the transient period there were clear gender differences regarding interest and preferences of science subjects, as well as their relationship towards future career perspectives. To be specific, biology was preferred by females, and males preferred physics and chemistry. With regard to future career perspectives, female students’ science interest was positively correlated with personal time- and innovation-oriented career perspectives; an outcome-oriented career expectation was negatively related to their interest. Interpretation and implication that might possibly arise from the results were also discussed. 相似文献
7.
An examination of gender, social class and ethnicity performance and participation patterns in different UK countries shows that inequities occur in relation to gender, class and ethnicity but that the patterns of inequity look quite different in the three domains. Achievement is equal for different genders but many more males take mathematics forward to advanced levels; social class differences persist in both achievement and participation; and ethnicity shows a varied pattern with some groups performing and participating at particularly high levels and some particularly low. This paper identifies some critical issues that we face in making mathematics and science equitable and begins to analyse some of the barriers that stand in the way of students who are female, and from some ethnic and social groups. 相似文献
8.
The purpose of this paper is to propose a new approach to research on gender differences in science that uses the work on
expertise in science as a framework for understanding gender differences. Because gender differences in achievement and participation
in the sciences are largest in physics, the focus of this review is on physics. The nature of expertise is first discussed
and a framework that focuses on factors that influence the emergence of expertise in physics is presented. This is used to
interpret what is known about gender differences in science, particularly physics. Next, the potential contributions of the
research on gender differences to our understanding of expertise are discussed. Using what is learned from these two areas
of research, recommendations are made for future research examining gender differences in physics. It is suggested that such
an approach be used for other areas of science, such as chemistry, where large gender differences in achievement and participation
also exist. 相似文献
9.
Using longitudinal administrative data to track student achievement and choice, we show how social conditioning shapes gender differences in the choice of STEM study fields, after controlling for prior achievement and socio-economic background. The male majority in advanced matriculation electives in mathematics, physics, and computer science, observed among students in Hebrew-language schools in Israel as in other Western societies, is reversed among Arab students, a society with markedly less gender equality. This greater representation of Arab female students in STEM study fields is only partially explained by the large gender gap favoring girls in eighth-grade mathematics and science achievement in Arabic-language schools. Much of the remaining difference in gender gaps can be traced to differences in the relationship between prior circumstance and choice between the two groups. This belies the notion of a congenital female aversion to traditionally male STEM subjects, and accords with previous findings that gender differences in preferences are greater in societies with greater gender equality. Following a cohort of eight-grade students to matriculation eliminates the selection bias that attenuates estimates of gender gaps in studies that analyze choices of college-bound students. 相似文献
10.
Gwen C. Marchand 《International Journal of Science Education》2013,35(18):3050-3061
Stereotype threat (ST), which involves confirming a negative stereotype about one's group, is a factor thought to contribute to the gender gap in science achievement and participation. This study involved a quasi-experiment in which 312 US high school physics students were randomly assigned, via their classroom cluster, to one of three ST conditions. The conditions included an explicit ST condition, an implicit ST condition, and a nullified condition. Results indicated that males in all three conditions performed similarly on a set of physics problems. Females in the nullified condition outperformed females in the explicit ST condition and females in the implicit and explicit conditions performed similarly. Males performed better than females in the implicit and explicit ST conditions, but male and female performance on the physics problems was not significantly different in the nullified condition. The implications of these findings for physics instruction and future research on gender differences in physics and ST in science are discussed. 相似文献
11.
Science competitions are positively linked to students' science career pursuit and admission at top universities. The search for effective gender equity measures has become a priority as girls are less successful during science Olympiad team selection. Based on the expectancy-value model we performed latent profile analysis on a dataset of 445 Chemistry Olympiad participants (51% female, mean age 16.50 years). We characterized motivational profiles, predicted profile membership using the gender-science Implicit Association Test, gender, and socializers’ support, and examined how profile membership influenced performance. We identified four profiles distinguished by career motivation, interest, and domain identification: fearful pessimists, average participants, carefree participants, and worried optimists. The least successful group was associated with stronger gender-science stereotypes, less parental support, and the female gender. We discuss these findings in light of the importance of parental support and the diminishing effect of gender-science stereotypes on feelings of belonging for girls. 相似文献
12.
Ladewig Antonia Köller Olaf Neumann Knut 《European Journal of Psychology of Education - EJPE》2023,38(1):435-454
The German Physics Olympiad is an extracurricular science contest for students. Here, they have the opportunity to compete against other talented students, can do physics outside of school, and take a first step to more engagement in the domain. Yet, female students participate in the competition in fewer numbers and are disproportionally more likely to drop out of the contest earlier than the male students.
The present study hence explored the question to which extent the German Physics Olympiad provides a threatening environment for female contestants’ intentions of persisting in physics. A total of 298 participants (28% female) were surveyed with respect to stereotype and social identity threat, as well as gender identification and sense of belonging as predictors of success expectations for and value of choosing to study physics. Success expectations and value of choosing to study physics were used as a measure for career intentions within the expectancy-value model.
The results support the conclusion that the contest presents an equally supporting environment for female and male participants. We found no gender differences in success expectations for and value of studying physics. Sense of belonging and gender identification significantly predicted success expectations but not value of choosing to study physics. Female participants in the German Physics Olympiad were also neither affected by stereotype threat nor by social identity threat in their sense of belonging or gender identification.
相似文献13.
Both academic self-concept and interest are considered domain-specific constructs. Previous research has not yet explored how the composition of the courses affects the domain-specificity of these constructs. Using data from a large-scale study in Germany, we compared ninth-grade students who were taught science as an integrated subject with students who were taught biology, chemistry, and physics separately with regard to the dimensional structure of their self-concepts and interests. Whereas the structure of the constructs was six-dimensional in both groups (self-concept and interest factors for biology, chemistry, and physics), the correlations between the domain-specific factors were higher in the integrated group. Furthermore, the pattern of gender differences differed across groups. Whereas male students generally showed higher self-concept and interest in physics and chemistry, a small advantage for male students in biology was only present in integrated science teaching group. We conclude that aspects of the learning environment such as course composition may affect the dimensional structure of motivational constructs. 相似文献
14.
Isobel J. Robertson 《International Journal of Science Education》2013,35(11):1201-1218
This study, by questionnaire, of a cohort of university bioscience students, has clarified factors influencing course choice, particularly those relating to the role of schools. In-school experiences provided the earliest source of interest in science for the majority, with males developing interests earlier and ages 10-14 important for both genders. Interest and success in previous studies were the most popular reasons given as the main influence on course choice. Work experience was very influential for some. The practical nature of school science, intellectual satisfaction of studying science and quality of senior school teaching and examination results in biology and chemistry, were identified by almost all as encouraging influences. Significant gender differences were found for influences of early perception of science as difficult, study of physics at 14-16 and quality of physics teaching in the senior school. Advice from the university and attendance at an open day were influential, particularly for female students. 相似文献
15.
奥赛经历对于创新人才的长期影响是一个重要但缺乏定量基础的教育问题。基于某大赛2019年全国决赛345名选手的问卷调查,实证分析了资优高中生五大学科奥赛参与经历对其创新能力的影响。运用多元线性回归(OLS)、倾向得分匹配法(PSM)等多种实证方法研究发现:在被调查的345名资优高中生中,参赛经历与其创新能力水平存在显著的正相关关系;在控制了个人、家庭、学校等相关特征后,与具有相似概率参与奥赛却未参与的学生相比,参赛学生具备显著更强的创新能力。基于实证分析的进一步讨论发现,高中学校的教学环境也是影响学生创新能力的显著变量,升学政策刺激下异化的奥赛培养模式不利于培育资优高中生的创新能力。 相似文献
16.
Frank Ventura 《International Journal of Science Education》2013,35(4):445-461
Drawing on a number of studies, this paper explores gender differentials in the choice of science subjects at secondary school level, factors influencing choice, differences in achievement and recruitment to science courses at a higher level in the particular educational context of the Maltese Islands. In this context all secondary schools are single‐sex, the state system is highly centralized, selection and streaming are widely practised, a high proportion of students (25%) attend private schools, and physics is compulsory. The results show that: more girls than boys study physics and biology at the lower secondary level (ages 11‐16); more boys study chemistry; achievement at this level is on a par in biology and chemistry; girls achieve slightly lower in physics. At the upper secondary level (ages 16‐18), almost equal numbers of boys and girls study biology and chemistry but boys predominate in physics. Girls avoid the option of physics and mathematics, a popular choice with boys. Consequently, at tertiary level very few girls opt for courses in engineering and prefer to subscribe to courses relating to medicine. 相似文献
17.
Kathryn Scantlebury Dale Baker Ayumi Sugi Atsushi Yoshida Sibel Uysal 《International Journal of Science and Mathematics Education》2007,5(3):415-438
This paper describes how the patriarchal structure of Japanese society and its notions of women, femininity, and gendered
stereotypes produced strong cultural barriers to increasing the participation of females in science education. Baseline data
on attitudes toward science and the perceptions of gender issues in science education, academic major and career choice were
collected from 175 university students (124 female, 51 male). Students responded to a Likert scale that included the option
“I don't understand the question”. All respondents took advantage of the option for items related to gender issues. On some
items up to 67% of the males responded that they did not understand the question. Females in science choosing this option
did not exceed 19%. In Japan, gender is an invisible, pervasive construct that impacts females' participation in science and
science education. In other ways, attitudes toward science among Japanese students mirrored those found in the United States
and in other countries. Respondents held the most favorable views of science when they were in elementary school and females
preferred biology while males preferred the physical sciences. The exception to the Western pattern of liking science and
science teachers is that male non-science majors rather than female non-science majors reported poor academic performance
in elementary school, declining attitudes in middle school, and they held the most negative attitudes toward their science
teacher and science subjects. 相似文献
18.
Marsha Ing 《International Journal of Science and Mathematics Education》2014,12(5):1221-1239
The lack of females entering STEM careers is well documented. Reasons for the gender gaps at all stages of the educational pipeline include both internal factors such as self-concept and external factors such as the influence of parents, media, and educators. Using latent growth curve analysis and nationally representative longitudinal survey data, this study compares differences in the relationship between a critical external factor (perceived early parental support), student mathematics and science achievement trajectories, and persistence in STEM career by gender. Mathematics and science trajectories were positively related to STEM career persistence for males and females. Perceived early parental support was related to growth in mathematics achievement for males but not females. There was no relationship between early perceived parental support and growth in science achievement for either males or females. These findings indicate differences in the relationship between parental support, achievement, and career persistence depending on content area and gender. 相似文献
19.
Researchers have reported persuasive evidence that students?? perceptions of their classroom learning environment account for significant variance in cognitive and affective outcomes (e.g. intrinsic motivation, self-concept, liking for particular subjects and students?? intention to drop out). The study reported in this paper investigated the relationship between students?? perceptions of classroom learning environment and motivational achievement goal orientations towards biology and physics, as well as the influence of gender. Participants (N?=?1538) were high school science students from the north-eastern region of Thailand. Our results suggest that motivational goals are linked to differences in students?? perceptions of learning environment and levels of biology and physics classroom anxiety. We found that females adopted significantly higher levels of mastery and performance approach goals towards biology, while males adopted significantly higher levels of mastery and performance approach goals towards physics. Males adopted significantly higher levels of performance avoidance goals towards both biology and physics. Positive associations emerged between gender and the adoption of specific performance goals, perceived degree of competition in biology and physics classrooms, and levels of biology and physics classroom anxiety. These results suggest that motivational goal orientations and perceptions of learning environment are gender-dependent and domain-specific for the two science content areas. 相似文献
20.
Abstract In previous research, participation in science studies in senior secondary school has been related to both background characteristics of students and to earlier achievements and interests. This paper reports an investigation of participation in combinations of subjects in senior secondary schools in Australia which embody different science orientations. It shows that different combinations of factors shape participation in physical science’ and ‘biological and other science’ types of course. Both are favoured by investigative interest but participation in a physical science course type is strongly associated with high levels of earlier school achievement in numeracy and gender whereas participation in a biological and other science course type is more strongly associated with social background and curriculum influences. In addition the paper suggests that the low participation by females in physical science courses should be interpreted in terms of an interactive influence of gender, earlier achievement and socio‐economic background. 相似文献