Inside the Double Bind: A Synthesis of Empirical Research on Undergraduate and Graduate Women of Color in Science, Technology, Engineering, and Mathematics

Ong, Maria; Wright, Carol; Espinosa, Lorelle L.; Orfield, Gary

doi:10.17763/haer.81.2.t022245n7x4752v2

Cited by 769 publications

(742 citation statements)

References 41 publications

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“…These environments for women are likely to be different and constitute an area for future study. Our numbers did not allow us to consider the unique experiences of racial and ethnic minority women in STEM graduate programs, an area critically important to explore for deeper understanding of how multiple marginalities affect experience and science career intentions (McGee et al 2016;Ong et al 2011). Additionally, our sample and promise of confidentiality prevented us from examining the experiences of international students or exploring disciplinary factors.…”

Section: Limitationsmentioning

confidence: 98%

“…Identifying as a female and a member of a traditionally male-dominated field deviates from or is incompatible with the norms for both (Cadsby et al 2013;Danielsson and Linder 2009;Gonsalves 2014). Women of color in STEM graduate studies face additional stereotypes that run counter to the prototypical white male in science, what scholars have referred to as the "double-bind", further oppressing their identity as a member of science culture (Malcom et al 1976;Ong et al 2011). In a study of diary entries and attitudinal measures of entering female undergraduates, when STEM was viewed as incompatible with feminine identity, motivation to continue in science careers decreased (London et al 2011).…”

Section: The Gendered Culture Of Stem Graduate Educationmentioning

confidence: 99%

“…They avoided speaking up or asking questions for fear that revealing uncertainty would be a viewed sign of weakness. In the "double bind", women evoke negative reactions when they communicate in ways that are counter to female stereotypical prescriptions (Heilman and Okimoto 2007;Rudman and Glick 2001), a phenomenon that is magnified for women of color (Malcom et al 1976;Ong et al 2011). Carol reported fearing coming across as too confident and evoking negative stereotypes:…”

Section: Category and Codes Typical Frequent Fewmentioning

confidence: 99%

See 2 more Smart Citations

Chilly Climates, Balancing Acts, and Shifting Pathways: What Happens to Women in STEM Doctoral Programs

Cabay¹,

Bernstein

Rivers

et al. 2018

Social Sciences

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Women in doctoral programs in Science, Technology, Engineering and Math (STEM) leave without finishing at higher rates than men and, as with men, turn away from academic and research careers. This qualitative study examines the day-to-day influences on female doctoral students during their third or fourth year in physical science and engineering programs. Ethnographic cognitive interviewing and online incident reports document the specific experiences and reactions of 28 participants over a six-month period. The data were analyzed to identify key incidents, categories and recurring themes. Some incidents contributed to women's growing sense of competence, recognition and identification of oneself as a scientist. Others fit a model of microaggressions and gender barriers in a predominantly masculine culture. Problems of work-life balance were demonstrated for some women. Incidents generated responses by some participants that they would disengage from a research-intensive career trajectory toward alternate career interests outside of academic research. The findings provide information about the lived experiences of women in doctoral programs and suggest that the metaphor of career pathways may be more useful than pipelines in explaining the direction of women who are advanced doctoral students in research-intensive fields.Keywords: women; graduate students; science and engineering; STEM; gender inequity Gaps between men and women persist in the pursuit and outcomes of degrees in science, technology, engineering, and math (STEM) (Shauman 2017; Turk-Bicakci and Berger 2014). In the life and social sciences, women have closed the gap in undergraduate majors and admission to graduate programs and now exceed men in completion of doctoral programs (National Science Foundation 2017). Yet women are awarded fewer than 25% of the doctoral degrees in the physical sciences and engineering, and hold disproportionately fewer tenured faculty positions in STEM and far fewer positions of prestige and power (Bernstein 2011;Handelsman et al. 2005;Fox 2001; National Science Foundation 2017).The "leaky pipeline" metaphor commonly refers to the disproportionate exit of women from STEM at transitions from one educational or career level to another, the consequence of which is fewer and fewer women remaining in the "pool" for subsequent advancement in STEM ). The pipeline metaphor relies on a somewhat linear conception of careers with certain specified outcomes, such as moving from an undergraduate major in STEM, through PhD degrees and postdocs, to faculty positions, to tenure, and eventually to full rank in research universities. Previous research on why women leave STEM fields at a greater rate than their male counterparts has examined the motivation of women to pursue STEM undergraduate degrees (Beyer 2014;Griffith 2010;Grunert and Bobnerb 2011;London et al.

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Section: Limitationsmentioning

confidence: 98%

Section: The Gendered Culture Of Stem Graduate Educationmentioning

confidence: 99%

Section: Category and Codes Typical Frequent Fewmentioning

confidence: 99%

See 1 more Smart Citation

Chilly Climates, Balancing Acts, and Shifting Pathways: What Happens to Women in STEM Doctoral Programs

Cabay¹,

Bernstein

Rivers

et al. 2018

Social Sciences

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“…For this purpose, numerous projects were set [6,9,12,13,18,25,26] An in-depth and longitudinal study conducted at an NSF funded Engineering Research Center showed that university faculty are persistent to change their teaching approaches no matter they had attended numerous professional development activities over couple years [11]. Faculty who reported dramatic changes in their teaching approaches were the ones who worked in collaboration with the learning scientists and systematically designed their own evidence based instruction in their own classrooms; collected data from their students with the help of the learning scientists, and published their educational design study results in journals or presented at educational conferences.…”

Section: Literature Reviewmentioning

confidence: 99%

Cultivating Evidence-Based Pedagogies in STEM Education

Yalvaç¹,

Ketsetzi²,

Peng³

et al.

2017 ASEE Annual Conference &Amp; Exposition Proceedings

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little understood question that has motivated her program of research is: How can we effectively and efficiently promote cyberlearning in complex knowledge domains such as STEM (science, technology, engineering and mathematics)? Towards this direction, she (1) investigates the development of higher-order thinking and complex problem-solving competencies following a comprehensive framework that includes cognition, metacognition, cognitive regulation, motivation, emotion, and epistemic beliefs; (2) develops innovative assessment methods that can benchmark progress of learning and the development of complex problem-solving competencies; (3) develops new and effective approaches to design state-of-the-art digital learning environments (such as intelligent tutoring, system dynamics modeling, simulations, virtual reality, and digital games) to facilitate complex problem-solving competencies; and (4) investigates effective ways to prepare teachers and administrators for digital transformation of education to support effective integration and seamless adoption of advanced learning technologies into education. In addition to her work focusing on STEM learning in K-20 educational settings, her research was also carried out in professional contexts including army, aircraft maintenance, air-traffic control, emergency response, environmental sciences, climate change, medical education, instructional design, architecture, construction science, mechanical engineering, industrial engineering, and systems engineering. Cultivating Evidence-Based Pedagogies in STEM Education AbstractIn this paper, we report the findings of a study that explored the changes in STEM faculty's approaches to teaching and understanding of student learning because of their participation in an ongoing STEM education project. This three-year project is funded by the department of education and aimed at cultivating evidence-based pedagogies in STEM undergraduate education at an Historically Black College and University (HBCU) in US. Four STEM faculty members who were the study participants designed evidence-based instructional strategies that were learner-centered and student-focused. The faculty implemented these strategies in their undergraduate courses and systematically collected data from their students to capture the impact of the newly implemented strategies on students' learning outcomes and experiences. With consultation from the learning scientists of the project, the faculty analyzed the student data collected and reported the findings of their research studies. In the following semester, the faculty participants iterated their design efforts. Participants' approaches to teaching and understanding of student learning were captured prior to the project activities and one year after their participation in the project activities. Both quantitative and qualitative data were collected. Analyses revealed that faculty have improved their teaching approaches from a knowledge-centered and teacher-focused orientation to a learner-centered and student-foc...

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“…For instance, in a review of research on minority retention, Ong, Wright, Espinosa, and Orfield (pp. 188-189) noted "agency and personal drive" as a major resource for women of color in STEM undergraduate programs 4 . This personal quality was conceptualized not as purely individualistic but as tapping into identity in a marginalized community for empowerment.…”

Section: Introductionmentioning

confidence: 99%

Theorizing Can Contribute to Marginalized Students' Agency in Engineering Persistence

Secules¹,

Gupta²,

Elby³

2015 ASEE Annual Conference and Exposition Proceedings

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Stephen is an Education PhD student at UMCP, researching engineering education. He has a prior academic and professional background in engineering, having worked as an engineer and project manager in building acoustics consulting firms for 5 years prior to becoming an educational researcher. His research interests include socio-cultural dimensions of engineering classrooms. Dr. Ayush Gupta, University of Maryland, College ParkAyush Gupta is Research Assistant Professor in Physics and Keystone Instructor in the A. J. Clark School of Engineering at the University of Maryland. Broadly speaking he is interested in modeling learning and reasoning processes. In particular, he is attracted to fine-grained analysis of video data both from a microgenetic learning analysis methodology (drawing on knowledge in pieces) as well as interaction analysis methodology. He has been working on how learners' emotions are coupled with their conceptual and epistemological reasoning. He is also interested in developing models of the dynamics of categorizations (ontological) underlying students' reasoning in physics. Lately, he has been interested in engineering design thinking, how engineering students come to understand and practice design. Andrew Elby, University of Maryland, College ParkMy work focuses on student and teacher epistemologies and how they couple to other cognitive machinery and help to drive behavior in learning environments. My academic training was in Physics and Philosophy before I turned to science (particularly physics) education research. More recently, I have started exploring engineering students' entangled identities and epistemologies.c American Society for Engineering Education, 2015Page 26.1582.1Theorizing can contribute to marginalized students' agency in engineering persistence. AbstractWithin research on retention and persistence in STEM, the concept of student agency is typically treated as a personal characteristic or as an element of coping and navigational strategies. The act of theorizing about one's own experiences and persistence is under-explored as a source of taking agency. Through interviews with a woman in the first year of an undergraduate engineering major, we examine the role that theorizing about engineering culture and her own experiences plays in her constructing a narrative of persistence that counters the prominent perceived narratives marginalizing her position in engineering.

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Inside the Double Bind: A Synthesis of Empirical Research on Undergraduate and Graduate Women of Color in Science, Technology, Engineering, and Mathematics

Cited by 769 publications

References 41 publications

Chilly Climates, Balancing Acts, and Shifting Pathways: What Happens to Women in STEM Doctoral Programs

Chilly Climates, Balancing Acts, and Shifting Pathways: What Happens to Women in STEM Doctoral Programs

Cultivating Evidence-Based Pedagogies in STEM Education

Theorizing Can Contribute to Marginalized Students' Agency in Engineering Persistence

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