共查询到20条相似文献,搜索用时 15 毫秒
1.
Hsieh Tzu-Ling 《International Journal of Science Education》2013,35(13):1870-1884
ABSTRACTThe purpose of this study was to answer the following two questions: (1) Do significant differences exist in high-school learning experience, interests, self-efficacy, and career aspirations between male and female science, technology, engineering, and mathematics (STEM) students? (2) Can high-school learning experiences, interests, and self-efficacy significantly predict career aspirations, and do differences exist between male and female STEM students? This study highlighted the gender gap between male and female university students who had already chosen STEM majors with similar academic ability. A total of 407 first-year students were surveyed at a 4-year research university in Taiwan. For the data analysis, a t-test and multiple regression analysis were used, and the findings indicated that male STEM students had greater family support than their female counterparts. The variable of task value could significantly predict STEM career aspirations for both male and female students, whereas the variable of STEM course self-efficacy could only significantly predict that of male students. In conclusion, the findings highlighted that the motivation of task value was a vital factor for predicting STEM career aspirations, whereas the factor of family support was the main gap between male and female STEM students in terms of their high-school learning experiences. 相似文献
2.
Neal H. Olitsky 《Research in higher education》2014,55(3):245-271
The United States government recently enacted a number of policies designed to increase the number of American born students graduating with degrees in science, technology, engineering and mathematics (STEM), especially among women and racial and ethnic minorities. This study examines how the earnings benefits of choosing a STEM major vary both by gender and across the distribution of academic achievement. I account for the selection into college major using propensity score matching. Measures of individual educational preferences based on Holland’s theory of career and educational choice provide a unique way to control for college major selection. Findings indicate that the earnings benefit to STEM major choice ranges from 5 to 28 % depending both on academic achievement and on gender and that high-achieving students benefit more from STEM major choice. Further, high achieving men benefit more from STEM majors than high-achieving women. Earnings differences in major choice may play an important role in explaining the underrepresentation of women in STEM major fields, especially among high achieving students. 相似文献
3.
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
4.
One way to increase students’ participation in science, technology, engineering, and mathematics (STEM) fields is to target their motivation. Researchers have conducted a growing number of interventions addressing students’ motivation in STEM; however, this body of work has not been adequately reviewed. We systematically reviewed experimental and quasi-experimental studies (n = 53) targeting adolescent students’ motivation for STEM subjects. While some interventions showed positive effects on a variety of motivational constructs and academic outcomes, others showed mixed or non-significant effects. We recommend that researchers more frequently examine moderating variables that might limit interventions’ results, including individual-level variables such as gender, contextual-level variables such as the subject in which an intervention was conducted, and design-level variables such as intervention length. Additionally, researchers might better align their interventions with motivation theory. Future research should address these limitations so that the results of successful interventions can better inform educational policy and practice. 相似文献
5.
Youn Joo Oh Yueming Jia Mhora Lorentson Frank LaBanca 《Journal of Science Education and Technology》2013,22(5):780-790
The Educational and Career Interest scale, a self-report instrument measuring high school students’ educational and career interest in STEM, was developed and validated in two studies conducted during 2010 and 2011. Study 1 included data from 92 high school students, in which exploratory factor analysis (EFA) was conducted with an initial item pool of 20 items. EFA identified three factors: educational and career interest in science, educational and career interest in technology, and educational and career interest in mathematics. Study 2 utilized data from 658 students to revisit the three-factor model using confirmative factor analysis. The two studies provide strong evidence that the scale is both valid and reliable. 相似文献
6.
Calls to strengthen education in science, technology, engineering, and mathematics (STEM) are underscored by employment trends and the importance of STEM innovation for the economy. The Study of Mathematically Precocious Youth (SMPY) has been tracking over 5,000 talented individuals longitudinally for 40 years, throwing light on critical questions in talent identification and development in STEM. SMPY includes individuals identified in 7th/8th grade as in the top 1% or higher in mathematical or verbal ability, and a comparison group identified as top STEM graduate students. SMPY findings cover the educational and occupational attainments of participants, including a large percentage earning a degree or pursuing high powered careers in STEM; gender differences; the extent to which high school experiences, abilities, and interests predict later outcomes; and subsequent creative production. Mathematical reasoning ability as measured by standardized tests is a reliable predictor for later math/science engagement and achievement in adulthood, and spatial ability adds predictive value. Exposure to appropriate educational opportunities do correlate with career achievement and creative production. SMPY researchers have concluded that potential future STEM innovators can be identified early and that educational interventions can increase their chances of success. 相似文献
7.
Seong Won Han 《Journal of Education & Work》2017,30(6):632-652
This study examines the degree of association between students’ STEM occupational expectations and between-country differences in public attitudes toward science and technology (S&T). This study focuses on public attitudes among two different populations: students and adults. Three-level Hierarchical Generalised Linear Models are employed to analyse large-scale international data from the Programme for International Student Assessment (PISA). Results reveal that public attitudes toward S&T are positively associated with students’ expectations around pursuing STEM careers. Further analyses reveal that the positive association between public attitudes toward S&T and STEM career expectations remains consistent across gender, but that this association varies across performance levels. The positive association between public attitudes toward S&T and STEM career expectations is stronger for low achievers in science than for high achievers. These results advance the scholarly understanding of the ways in which social factors may be associated with students’ choices in pursuing STEM occupations. 相似文献
8.
Richard Lamb Leonard Annetta David Vallett Jonah Firestone Maureen Schmitter-Edgecombe Heather Walker 《The Journal of educational research》2018,111(4):446-458
Attention on P-20 science, technology, engineering, and mathematics (STEM) education has increased tremendously in recent years. Many efforts are underway to promote STEM major and career selection across the nation; specifically, in engineering and computer science. The authors' purpose was to examine an underlying profile combinations of latent traits that influence student STEM career selection while designing serious educational games (SEGs). The authors combine a number of quantitative analysis methods in an effort to develop a rich understanding of how a profile combination of traits interact with one another to effect selection of STEM careers and majors. Study participants were 585 students enrolled in a full-time traditional high school. The addition of SEG design experiences into the student profile increases the probability of STEM career selection by 5.1 times. 相似文献
9.
O.B. Savinskaya 《Russian Education & Society》2017,59(3-4):206-216
The article discusses the importance of introducing training programs for preschool children that allow them to master basic knowledge in science, technology, engineering, and mathematics (STEM subjects) as an academic basis for the technological transition that is currently taking place in the modern world. It is shown that when preschool students study STEM subjects, it gives them a great advantage later in elementary, middle, and high school. As a result of our investigation of STEM subjects for preschoolers and the gender considerations that should be incorporated into successful teaching strategies, we have concluded that together with the preparation and institutionalization of such training programs it is necessary to teach the designers of educational programs as well as educators about the specific features that characterize how boys and girls learn. A curriculum that takes gender differences into account is one that does not allow the development of a gender dichotomy in education. Rather, it should ensure that both boys and girls have equal motivation and a positive attitude about STEM subjects. 相似文献
10.
Tian Luo Xiufeng Liu Jiangping Zhou 《International Journal of Science Education》2013,35(14):1885-1904
ABSTRACTThe aim of this study was to develop a scale to measure students’ STEM continuing motivation (CM). In accordance with the conceptualisation of CM by Maehr (1976. Continuing motivation: An analysis of a seldom considered educational outcome. Review of Educational Research, 46(3), 443–462. doi:10.3102/00346543046003443), we define STEM CM as students’ tendencies to actively engage in STEM-related activities. The STEM Continuing Motivation Scale was developed from a literature review and student cognitive interviews, and was validated on a sample of 465 Chinese 7th and 8th graders. The results demonstrated that the developed scale had high reliability (Cronbach’s α?=?0.91) and good validity. Analysis of variance (ANOVA) showed that boys had significantly higher STEM CM than girls and there were significant differences in engineering CM among students from different schools. The implications of the findings of this study are also discussed. 相似文献
11.
Drawing on expectancy-value theory, this study examines gender and family influences on students’ career aspirations and attached values. 796 secondary Spanish students (M age?=?16 years old, S.D.?=?0.81) participated. 53% were boys. The results show that boys and students with mothers who have completed intermediate level education were more interested in science, technology, engineering and mathematics (STEM) architecture and technology. Girls and students with highly educated mothers born in Spain were more likely to aspire to STEM health and experimental studies. Furthermore, boys and students planning to pursue STEM-technology studies attached higher extrinsic values to these studies. On the contrary, girls and participants with interest in experimental and health studies attached less extrinsic values to these studies. Moreover, students with highly educated mothers and interested in STEM architecture and technology reported higher extrinsic values. Understanding the interaction of gender and family factors shaping adolescents’ career aspirations in STEM fields seems to be crucial to designing significant and effective school and family grounded interventions. 相似文献
12.
Margaret E. Beier Michelle H. Kim Ann Saterbak Veronica Leautaud Sandra Bishnoi Jaqueline M. Gilberto 《科学教学研究杂志》2019,56(1):3-23
Can engaging college students in client-centered projects in science, technology, engineering, and mathematics (STEM) coursework increase interest in STEM professions? The current study explored the effectiveness of project-based learning (PjBL) courses on student attitudes, major choice, and career aspirations in STEM. Framed in expectancy-value and social cognitive career choice models, we examined the effect of engaging in at least one authentic, project-based course during the first four semesters of college on student STEM attitudes and career aspirations in a quasi-experimental study with a sample of (N = 492) natural science and engineering students. STEM self-efficacy and subjective task value variables (STEM attainment, intrinsic and utility value of STEM courses, and relative cost associated with engaging in STEM courses) were examined as mediators of the relationship between classroom project-based experiences and STEM career aspirations. Gender and underrepresented minority status were also examined. We found that engaging in at least one project-based course during the first four semesters affected student perceptions of STEM skills, perceptions of the utility value of participating in STEM courses, and STEM career aspirations. Furthermore, we found that the effect of project-based courses on STEM career aspirations was mediated by STEM skills and perceptions of course utility. The effect of PjBL was not moderated by race or gender. We highlight areas of future research and the promise of PjBL for engaging students in STEM professions. 相似文献
13.
In response to the leaky STEM pipeline, particularly for girls, many schools have introduced integrated STEM (iSTEM) programs to enable students to solve problems using skills from each STEM area and hopefully enhance their interest in continuing with STEM subjects in senior-high school and university. We investigated whether gender differences in students’ perceptions of classroom emotional climate and attitudes to STEM depend on whether students are undertaking iSTEM projects as part of a multidisciplinary curriculum (S, T, E and M) or unidisciplinary curriculum (S, T, E or M) and also whether they attend a government or nongovernment coeducational school. The sample consisted of 256 students in 24 coeducational grade 7–9 classes in 8 government schools and 157 students in 12 coeducational grade 7–10 classes in 6 nongovernment schools. Whereas boys were significantly more positive than girls in perceptions of clarity, motivation, consolidation and attitudes to iSTEM in coeducational government schools, there were no significant gender differences in coeducational nongovernment schools. Students of both genders in government schools were significantly more positive about all aspects of classroom emotional climate and attitudes than students of both genders in nongovernment schools, even after controlling for socioeconomic status. Also, females were slightly more positive about classroom emotional climate and in their attitudes in multidisciplinary STEM classes in government schools. This study suggests that multidisciplinary STEM classes could motivate girls to pursue STEM subjects in senior-high school and at university.
相似文献14.
Seong Won Han 《Educational Research and Evaluation》2016,22(7-8):374-401
Students’ science-related career expectations are important for predicting their future science, technology, engineering, and mathematics (STEM)-related educational and occupational attainments. This study examines the degree to which standards-based external examinations are associated with a student’s propensity for pursuing science-related professional occupations. The science-related fields included in the analysis are mathematics, physical and life science, and engineering/computing. Three-level hierarchical generalized linear models are employed to analyse international survey and student achievement data from the Programme for International Student Assessment (PISA). The analyses show that students in national education systems that require standards-based external examinations have lower expectations for science-related professional careers than students in the systems that do not use such examinations. This negative association remained constant by gender as well as across levels of science performance. From an educational policy point of view, the results suggest the negative consequence of standards-based external exams in fostering students’ interests in pursuing science-related careers. 相似文献
15.
As the United States population approaches a minority majority, the need to address educational inequities is intensified, especially for Latin@ students who are among the fastest growing ethnic minority group across the United States and at four-year colleges and universities. Concerns for educational equity also demand broadening participation of domestic under-represented groups in science, technology, engineering, and mathematics (STEM) fields. Informed by student-level data from six large, public, doctoral-granting, research-intensive universities located in the Midwest and Mid-Atlantic regions, we examine differences in STEM degree attainment among Latin@s at the intersections of race/ethnicity, gender, and socioeconomic status. The results support the need to target STEM intervention efforts to Latin@s by gender. 相似文献
16.
Gregor Cerinsek Tina Hribar Natasa Glodez Slavko Dolinsek 《International Journal of Science Education》2013,35(17):2999-3025
17.
Johanna Vennix Perry den Brok Ruurd Taconis 《International Journal of Science Education》2018,40(11):1263-1283
The present study investigated outreach activities, developed by STEM-based companies or universities in co-creation with secondary education with the aim to inform students about and motivate them for a career in STEM by connecting the work-context with school-science. Although many of such activities are being offered, little is known about their effects. We investigated students’ perceptions with the outreach learning environment, perceived need-fulfilment, self-reported motivation and attitudes towards STEM. Data were gathered from 729 high-school students engaged in 12 activities in the USA and the Netherlands. The students completed a questionnaire, which contained questions about four elements of our theoretical frame based on the Self-Determination-Theory (SDT). Perceived needs-fulfilment and motivation were measured using the basic-psychological-needs-scale and the self-regulation-questionnaire. Attitudes were measured using the test-of-science-related-attitudes. Learning environment perceptions were measured in a previous study using subscales of what-is-happing-in-this-classroom (WIHIC), constructivist-learning-environments-scale (CLES) and classroom-environment-scale (CES) and typified by activity characteristics. Multilevel analyses of variance were conducted for the two motivation scales (controlled and autonomous-motivation) and the two attitude scales (social-implication and career-interest). Activity characteristics explained almost all variance in these variables between activities. Specific characteristics of outreach activities that statistically significantly related to autonomous motivation and positive general attitudes towards STEM were: workshop-format, understanding science, an out-of-school component. The attitude towards a possible STEM-career was positively associated with autonomous-motivation and negatively associated with controlled-motivation. Thus, outreach learning environments indeed created opportunities to increase students’ motivation in STEM and attitude towards STEM, but the impact varied according to particular characteristics of the activities. 相似文献
18.
This paper examines differences in STEM retention between minority and non-minority students enrolled at the University of California, Los Angeles (UCLA) from 1980 through 2006. Using detailed administrative records of undergraduate students, we document that minority students and non-minority students take divergent pathways through the STEM major. Specifically, minority students take fewer lower division STEM courses in their early career, which delays their enrollment in upper division STEM courses and leads to lower graduation probability in STEM within four years and higher dropout rates. We investigate the potential reasons (and/or predictors) for this apparent discrepancy. To do so, we first identify a student’s major-specific Individual Performance Potential (IPP) from lower division course regressions. We find that once we control for the heterogeneity in the IPP’s and a rich set of term level controls, the differences in intermediate outcomes (declared major, STEM course load) between minority and non-minority students largely disappear, but that some of the gap in outcomes persist, with the exception being in graduation from STEM within five years, for which minority students are more likely after controlling for these factors. Our findings suggest that minority STEM majors would benefit from additional support such as early career course advising. 相似文献
19.
Literature on future orientation and motivation was examined for gender differences. Research revealed gender differences from five theoretical orientations: achievement motivation, future time orientation, possible selves, expectancy-value, and social-cognitive. Some of those differences seemed best explained in terms of generational differences in gender role expectations. Gender differences were found in extension and density of future goals. Men had further extension but fewer goals than women. Evidence suggested that women's future expectations have become more similar to men's in the career realm, although women also have maintained their focus on interpersonal goals. An implication is that schools are a potentially powerful sociocultural context that can encourage students to envision futures that are not constrained by gender, race/ethnicity, or other stereotypes. 相似文献
20.
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