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Previous research suggests that racial and ethnic disparities in postsecondary STEM outcomes are rooted much earlier in the educational pipeline. One possible remedy to these disparities is participation in early STEM enrichment programs. We examine the impact of MESA, which is an early program that targets socioeconomically disadvantaged students, on outcomes that may lead students down the path to STEM. We analyze three waves of restricted nationally-representative data from the High School Longitudinal Study that trace the STEM progress of more than 25,000 students throughout high school and into their postsecondary careers. Propensity score matching models reveal that MESA participation increases students’ odds of taking AP STEM courses in high school and their aspirations for declaring a STEM major in college. However, these effects are driven primarily by black and white students, respectively. Latino and Asian students remain largely unaffected. A formal sensitivity analysis concludes that these findings are moderately robust to unobserved confounding. The results are also robust to alternative matching schemes. Collectively, the findings suggest that MESA may improve black students’ high school STEM engagement but may have little impact on black and Latino students’ STEM outcomes in college. 相似文献
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Despite the current growing popularity of the computer science (CS) major, women remain sorely underrepresented in the field, continuing to earn only 18% of bachelor’s degrees. Understanding women’s low rates of participation in CS is important given that the demand for individuals with CS training has grown sharply in recent years. Attracting and retaining more women to high-paying fields like CS may also help narrow the gender pay gap. Further, it is important that women participate in developing new technology so that technology advances serve the needs of both women and men. This paper explores the background characteristics, career aspirations, and self-perceptions of 1636 female first-year college students in the United States who intend to major in CS and compares them with 4402 male CS aspirants as well as with 26,642 women planning to major in other STEM sub-fields. The findings reveal a unique profile of women who pursue the CS major and notes many significant differences between men and women in CS and between women in CS and those in other STEM fields. For instance, women in CS tend to earn lower high school grades than women in other STEM fields, but earn higher SAT verbal scores. They also rate themselves higher than men in CS and women in other STEM fields on measures of their artistic ability, but rate themselves lower on other self-ratings, including academic and leadership ability. Further, women in CS are more likely to be undecided in their career plans than men in CS and women in other STEM fields. Understanding the unique characteristics of women in CS will help inform policies and recruitment programs designed to address the gender gap in computing. 相似文献
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AbstractSTEM outreach programmes in secondary schools are mediated by STEM teachers who are responsible for organising, implementing and evaluating the activities with a view to promoting STEM subjects. However, research investigating teachers’ STEM roles and professional development through participation in outreach activities is limited. This paper explores teachers’ views of STEM activities, how they understand their role as primary facilitators and the impact of their STEM engagement on their professional development. STEM outreach provides distinct opportunities for situated and dialogic learning. STEM teachers’ effectiveness in engaging students by demonstrating the importance and relevance of STEM subjects in the real world and engaging captivating STEM outreach partners not only supports students learning but also enhances their opportunities to develop their knowledge and skills. Semi structured interviews were conducted with eleven teachers from six different schools in the West Midlands, United Kingdom. The data reveals STEM facilitators become the ‘face’ of STEM to their pupils. The expertise, knowledge and partnerships STEM facilitators develop, broadens their capacity to deliver teaching imbued with real world applications and improve students’ understanding of the range of new and upcoming careers available. Most importantly, participating in STEM outreach activities help teachers maintain and reinforce their own sense of identity as STEM professionals. Outreach activities provide opportunities for teachers to interact with leading scientists and obtain exposure to cutting-edge research. 相似文献
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The need to enhance the STEM workforce and, in turn, the STEM educational pipeline is a prevailing issue in the U.S. One critical component in this pipeline is students’ interest in STEM majors and their persistence in such majors, theorized to be a function of both students’ perceived value and expectancy beliefs in the subject matter. Using an expectancy-value lens, we examined cross-domain patterns of high school students’ expectancy beliefs and values in both mathematics and science using a person-centered or profile approach. With data from the High School Longitudinal Study, latent profile analysis revealed five profiles characterized as Low Math/Low Science (i.e., endorsing low levels of expectancy and value beliefs in math and science), Moderate Math/Moderate Science, High Math/High Science, Low Math/High Science, and High Math/Low Science. Taking into account aspects of students’ background and school context, we found that motivational profile membership predicted math and science high school achievement, college persistence, and both STEM major intentions and major choices. Moreover, there were a number of gender and racial/ethnic differences and contextual variation in profile memberships as well. Implications for theory and educational practice are discussed in relation to study findings. 相似文献
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Understanding inclusive STEM high schools as opportunity structures for underrepresented students: Critical components 
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下载免费PDF全文 Sharon J. Lynch Erin Peters Burton Tara Behrend Ann House Michael Ford Nancy Spillane Shari Matray Edmund Han Barbara Means 《科学教学研究杂志》2018,55(5):712-748
Inclusive STEM high schools (ISHSs) can be viewed as opportunity structures for students underrepresented in STEM. By opportunity structures, we mean an education that provides not only access to high quality STEM curriculum and instruction or “opportunity to learn,” but also the capacity to create learning environments where students can build STEM social capital and the dispositions, knowledge, skills, and networks to be successful in STEM college majors and careers. This is a cross‐case analysis of case studies that describe the design and implementation of eight “exemplar” ISHSs. Beginning with 10 hypothesized critical components, we found evidence for all 10, but present in unique patterns of prominence, depending on the school context. Further inductive analysis located an additional four emergent critical components that complete the picture of how these successful ISHSs were able to achieve their goals. Importantly, across schools, four components stood out as foundational: a flexible and autonomous administrative structure; a college‐preparatory, STEM‐focused curriculum for all; well‐prepared STEM teachers and professionalized teaching staffs; and supports for students in underrepresented groups. Although many of the critical components found in the ISHSs are also found in the school reform literature, these schools also had characteristics unique to STEM education. This paper is important in understanding STEM high schools as opportunity structures and as a school reform alternative that can help solve equity and social mobility gaps in STEM. 相似文献
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Roland Nuñez 《Clearing house (Menasha, Wis.)》2013,86(4-5):143-148
College preparation programs are ubiquitous among secondary schools, ranging from bridge programs and summer camps to STEM competitions. High school students have many options in preparing for the academic pressures of higher education. However, an area often neglected in college preparation programs is the teaching of interpersonal customs and norms of university life. High school students, especially those from disadvantaged backgrounds, may enter college with little to no understanding of the social and organizational expectations of being a college student. This study tests a college preparation approach that utilizes college-themed media as a way to educate students on college life that is unintimidating and enjoyable. Six high school students were presented with various forms of fictional college story plotlines, including a movie, two television shows, and a novel. Through observational data and semi-structured interviews, findings showed that the students identified some valuable personal lessons about what it means to be a college student after consuming the media. The findings suggest that incorporating college media into college preparation programs in high school may provide a more holistic college preparation experience by demystifying college stereotypes and relieving some of the pressures that high school students face about what is waiting for them in college. 相似文献
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The role of high school racial composition and opportunities to learn in students' STEM college participation 下载免费PDF全文
下载免费PDF全文 Martha Cecilia Bottia Roslyn Arlin Mickelson Jason Giersch Elizabeth Stearns Stephanie Moller 《科学教学研究杂志》2018,55(3):446-476
We analyze longitudinal data from students who spent their academic careers in North Carolina (NC) public secondary schools and attended NC public universities to investigate the importance of high school racial composition and opportunities to learn in secondary school for choosing a science, technology, engineering, and mathematics (STEM) major. We consider school racial composition and opportunities to learn as contexts that shape students' decisions regarding college majors. Results of cross‐classified hierarchical logistic models indicate that attending schools with predominantly White students is negatively associated with declaring a STEM major and with graduating with a STEM major irrespective of students' own race. The finding suggests that for students in North Carolina, attending racially isolated White high schools is related to a decrease in adolescents' participation in STEM during college. 相似文献
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《The Journal of educational research》2012,105(5):374-376
ABSTRACTPresent federal education policies promote learning in science, technology, engineering, and mathematics (STEM) and the participation of minority students in these fields. Using longitudinal data on students in Florida and North Carolina, value-added estimates in mathematics and science are generated to categorize schools into performance levels and identify differences in school STEM measures by performance levels. Several STEM-relevant variables show a significant association with effectiveness in mathematics and science, including STEM teacher turnover, calculus and early algebra participation, and mathematics and science instructional indices created from survey items in the data. Surprisingly, a negative association between students’ STEM course participation and success in STEM is consistently documented across both states, in addition to low participation of underrepresented minority students in successful schools in STEM. 相似文献
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The supply of STEM graduates is an issue in many countries—raising the question of why more students do not choose STEM careers. We aimed to address this question by drawing on two of the most prominent theories on career choices: Eccles et al.'s (1983) expectancy-value theory (EVT) and Holland's (1997) theory of vocational interests. In a large longitudinal data set, we used EVT constructs and vocational interests assessed at the end of high school (T1) to explain differences in math achievement (a critical filter for later STEM choices) at the end of high school (school sample: N = 4,984) and to predict actual STEM major choices in college 2 years later (T2; college sample: N = 2,145). To investigate their distinct and relative contributions, we conducted a set of hierarchical regression analyses (linear and logistic) in which we considered EVT constructs and vocational interests separately and simultaneously. Whereas both groups of constructs were significant predictors of both outcomes, vocational interests were better predictors of STEM major choice (Pseudo-R2 = .26) than EVT constructs (Pseudo-R2 = .19), and EVT constructs were better predictors of math achievement (R2 = .47) than vocational interests (R2 = .30) when investigated separately. In addition, the combined analyses revealed that the best predictions of math achievement (R2 = .48) and STEM major choice (Pseudo-R2 = .28) were achieved when EVT constructs and vocational interests were used jointly. Results suggest that EVT constructs and vocational interests contribute differently to STEM major choices, a finding that may have important implications for research and practice, including the choice of which constructs to target in interventions. 相似文献
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First-generation college students (FGCSs) are a growing population in undergraduate education. Research on FGCS primarily focuses on the challenges and barriers they encounter in college. While important, this literature offers a limited view of FGCS as learners. Moreover, minimal literature has examined these students' lived experiences within sciences, technology, engineering, and mathematics (STEM). This study explores the learning experiences of FGCS (N = 17) in undergraduate STEM programs at a mid-sized, private, predominantly white institution. Guided by the frameworks of intersectionality and social cognitive career theory, the researchers utilized a qualitative, phenomenological research methodology to hear the perspectives of FGCS to and to identify problematic higher educational structures in STEM. Findings point to an elitist stance underlying STEM programs based in general disciplinary norms that restricted FGCS access to STEM majors and careers across social, academic, and professional elements of the academic experience. FGCS who were multiply minoritized based upon race, gender, and social class experienced the compounding of marginalization, and academic success and persistence came at a personal cost. Students also reported relying predominantly on personal strengths and motivations to overcome elitism in STEM rather than on institutional supports. Findings also highlight the variation in the first-generation experience and identify the unique barriers FGCS encounter within STEM fields. Implications for dismantling inequitable structures for higher education in STEM attending to the social, academic, and professional inclusion of FGCS. 相似文献
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《The Journal of educational research》2012,105(5):382-391
ABSTRACTAdvanced mathematics and science coursetaking is critical in building the foundation for students to advance through the STEM pathway—from high school to college to career. To invigorate students’ persistence in STEM fields, high schools have been introducing applied STEM courses into the curriculum as a way to reinforce concepts learned in traditional mathematics and science classes and to motivate students’ interests in a long-term pursuit of these areas. The author examines the role of taking applied STEM courses early in high school on taking advanced mathematics and science courses later in high school. The results suggest a positive link between early applied STEM coursetaking and later advanced mathematics and science coursetaking—one that is delineated by specific type of applied STEM course and by individual-level demographic characteristics. The findings of this study thus support policymakers and practitioners’ efforts to expand the STEM curriculum beyond traditional subjects. Continuing to do so may be one way to expand the number of students persisting in STEM. 相似文献
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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
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This paper studies gender differences in college applications in Chile. We use the revealed preferences of students for college major choice by taking advantage of Chile’s Centralized Admission System, and estimate a nested logit model to predict the first preference of applicants. We find that males apply to selective programs even when they are marginal candidates, while equally qualified female candidates tend to apply less often to these programs. Using counterfactual exercises, we conclude that to successfully address the gender gap, along with promoting females’ participation in STEM careers, we must increase males’ willingness to consider non-STEM fields. Closing the gender gap does not imply a loss in terms of talent distribution by area of knowledge. 相似文献
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Both K-12 schools and STEM disciplines are embedded in White supremacy and exclusion, making it that much harder for Black women to maintain an interest and sense of belonging in STEM. Through a Critical Race Feminism methodology, we tell the counterstories of our two co-authors, two Black women, over the course of their lives. Through these counterstories (stories that run counter to normative stories of STEM as male and White), Kelli and Samantha show us how they negotiated and maintained a sense of belonging in STEM even through moments of self-doubt in their STEM trajectory. These negotiations allowed them to carve a space for themselves within STEM. A key finding from these counterstories was the resilience both women developed through their participation in counterspaces and support from family and teachers that helped them develop pride in their STEM identity trajectories. Our study adds to the research on Black women's journeys in STEM by describing resilience strategies that our authors were forced to develop in response to White supremacy and how they were able to maintain their STEM identity by creating a counterstory that allowed them to maintain their sense of belonging within STEM. And yet, we conclude by asking if resilience is enough since both women questioned their authentic and valued place in their respective STEM disciplines because of the dominant storyline of STEM as White and male. Their stories reveal the deeper truth that change is needed in STEM to empower students of color to see themselves as not just tolerated but valued members of the discipline. 相似文献
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This paper examines the role of living–learning (L/L) programs in undergraduate women’s plans to attend graduate school in
STEM fields. Using data from the 2004–2007 National Study of Living Learning Programs (NSLLP), the only existing multi-institutional,
longitudinal dataset examining L/L program outcomes, the findings show that women’s participation in women-only STEM-focused
L/L programs is positively associated with STEM graduate school aspirations, in comparison to residing in co-educational STEM
L/L programs, all other L/L programs, and traditional residence halls. Socially supportive residence hall climates and women’s
self-assessments as performing better than men in STEM contexts were also positively associated with STEM graduate school
plans, while academically supportive residence hall climates and visiting the work setting of a STEM professional held negative
relationships with the outcome. Implications are discussed for L/L programs and the utility of women-only programming within
coeducational institutions of higher education. 相似文献
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Anniek van den Hurk Martina Meelissen Annemarie van Langen 《International Journal of Science Education》2019,41(2):150-164
The so-called leaking STEM pipeline (dropout in STEM education) has been the subject of many studies. The large interest of scholars in plausible causes of this leakage has resulted in a number of meta-reviews describing factors at system, school and student level related to interest and persistence in STEM education. The STEM pipeline discussion has also resulted in a large number of programmes aimed at enhancing STEM interest and persistence in STEM education. Although these programmes have been widely evaluated, there seems to be no consensus about which interventions are successful in raising interest in STEM or persistence in STEM education. This study reports the results of a systematic review of empirical studies in which the effectiveness of STEM-related interventions are assessed. Initially, 538 studies were found. The quality analyses showed that only a few of these evaluation studies are designed in such a way that it is likely that the found effects are caused by the intervention. Although some potentially effective interventions were found, this review shows that there is still a need for research into the effectiveness of those programmes, especially with regard to programmes preventing talented and initially motivated STEM students to drop out of STEM education. 相似文献
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《The Educational forum》2012,76(1):71-79
AbstractMany bright, talented girls from populations traditionally underrepresented in Science, Technology, Engineering, and Mathematics (STEM) are underachieving or disengaged in school, despite having an interest in STEM. Qualitative research was conducted with teenaged girls from culturally and academically diverse backgrounds participating in an extracurricular scientific diving SCUBA program. The program provided opportunities for these girls to learn and apply STEM knowledge and SCUBA diving skills during research, service learning and place-based, hands-on projects. Findings suggest that motivation for STEM in teenaged girls increases when they are able to participate in real-life, place-based activities they find personally meaningful with other interest-based peers and mentors. 相似文献