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1. Expanding Conversations about Accessibility to Include Faculty

   Anicha, C. ( February 2023 , CoNECD ’23: Collaborative Network for Engineering and Computing Diversity.)

   The past decade has witnessed increasing interest in attracting and retaining a more diverse workforce in science, technology, engineering, and mathematics (STEM) fields, including expanding the participation of women and racial-ethnic minorities and, in fewer cases, to people with disabilities. Despite the availability of a rich collection of published research on women faculty that has increasingly used an intersectional lens, these conversations rarely meaningfully address strategies to make faculty careers more welcoming and accessible to women with disabilities. Further, as the professoriate ages, there will be an increasing number of faculty with disabilities and the pandemic has a disproportionate impact on many faculty with disabilities. In the coming years, there will also be faculty who have acquired disabilities as the result of long covid. This paper reviews existing research and practice reported in the literature about faculty with disabilities as well as reports of people with disabilities and other stakeholders in an online community and offers practical promising practices for increasing the participation of this marginalized and underserved group in STEM fields. The paper begins with a discussion of structural barriers that make faculty careers inaccessible and unwelcoming to people with disabilities and presents two approaches to access: accommodations and universal design. Both approaches have a role in the process of increasing the participation of people with disabilities in faculty careers. Given the relatively sparse literature on the topic, we encourage researchers addressing faculty careers to ask about disability in their work and to analyze disability-related data to increase our understanding of the issues impacting this population. Moreover, we offer departments and institutions strategies that they can take related to institutional and departmental policies related to accommodation requests, hiring practices, faculty evaluation, and other relevant areas; departmental culture; physical environments; collaboration and communication, and information technology. We conclude with recommendations to researchers and practitioners regarding the development of practices that will lead to increased engagement and success of women in faculty positions in STEM. 

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2. Physics instructors’ views about supporting learner variation: Modifying the Inclusive Teaching Strategies Inventory

   https://doi.org/10.1119/perc.2019.pr.Scanlon  

   Scanlon, Erin M. ; Chini, Jacquelyn J. ( January 2019 , 2019 Physics Education Research Conference)

   Every person has abilities across a multidimensional spectrum; however, previous research has indicated that postsecondary faculty are unaware of how to support students with a broad range of abilities in their courses and receive little training about inclusive teaching strategies. On average, STEM faculty have demonstrated more negative views toward students with disabilities than instructors from other disciplines. As such, we want to better understand physics instructors' beliefs about people with disabilities and their inclusive teaching practices. The Inclusive Teaching Strategies Inventory (ITSI) was developed to measure postsecondary instructors' beliefs and practices related to disability and supporting people with disabilities across disciplines. Through a pilot administration of this survey, we found that STEM faculty experienced difficulties in responding to the survey. Thus, we modified the ITSI for use with STEM faculty. We present our modification process, describe specific modifications made to the ITSI, and discuss preliminary interview and survey data. 

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3. Leaving Civil Engineering: Examining the Intersections of Gender, Disability, and Professional Identity

   McCall, Cassandra ; Paretti, Marie ; McNair, Lisa ; Shew, Ashley ; Simmons, Denise ; Zongrone, Courtney ( June 2020 , American Society for Engineering Education Annual Conference)

   As the need for civil engineers continues to grow, so too does the need to broaden participation and increase diversity in the field. While researchers in civil engineering (CE) education have identified the need for more intentional recruitment and retention of women and people of color in the civil engineering field, few studies have considered disability status in these contexts. To address this gap in the literature and enhance the recruitment and retention of minoritized groups in civil engineering, we explore the intersections of gender and disability in civil engineering to better understand why individuals choose to leave the discipline. We focus our discussion on the experiences of Sammie, Shawn, and Natalie, three white women who identify as having disabilities and are no longer enrolled in CE programs. As part of a larger, longitudinal study examining the professional identity formation of undergraduate CE students with disabilities, semi-structured interviews were conducted with each participant and analyzed using open and focused grounded theory coding techniques. Findings revealed four overarching themes that capture participants’ pathways out of civil engineering: 1) experiencing conflicts with dominant CE culture; 2) encountering barriers within the CE curriculum; 3) navigating intersecting stereotypes and compounding marginalization; and 4) leaving while remaining peripherally identified with the CE discipline. While participants’ identification with the discipline were altered, they were not eliminated; in leaving, all participants chose to pursue careers that are peripherally related to CE. These findings point to potential strategies and opportunities for supporting students who may leave the major, but do not intend to leave the profession altogether and highlight the cross-functionality of engineering workplaces not always acknowledged in academia. Overall, this work contributes to ongoing efforts to intentionally lower and remove barriers that serve to marginalize any group in civil engineering education and engineering education, broadly. 

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4. Designing a Curriculum to Broaden Middle School Students' Ideas and Interest in Engineering

   Stevens, Shawn Y. ; Littenberg-Tobias, Joshua ; McKneally, Ranida ; Cayko, Ethan ( June 2023 , 2023 ASEE Annual Conference & Exposition)

   Designing a Curriculum to Broaden Middle School Students’ Ideas and Interest in Engineering As the 21st century progresses, engineers will play critical roles in addressing complex societal problems such as climate change and nutrient pollution. Research has shown that more diverse teams lead to more creative and effective solutions (Smith-Doerr et al., 2017). However, while some progress has been made in increasing the number of women and people of color, 83% of employed engineers are male and 68% of engineers are white (NSF & NCSES, 2019). Traditional K–12 approaches to engineering often emphasize construction using a trial-and-error approach (ASEE, 2020). Although this approach may appeal to some students, it may alienate other students who then view engineering simply as “building things.” Designing engineering experiences that broaden students’ ideas about engineering, may help diversify the students entering the engineering pipeline. To this end, we developed Solving Community Problems with Engineering (SCoPE), an engineering curriculum that engages seventh-grade students in a three-week capstone project focusing on nutrient pollution in their local watershed. SCoPE engages students with the problem through local news articles about nutrient pollution and images of algae covered lakes, which then drives the investigation into the detrimental processes caused by excess nutrients entering bodies of water from sources such as fertilizer and wastewater. Students research the sources of nutrient pollution and potential solutions, and use simulations to investigate key variables and optimize the types of strategies for effectively decreasing and managing nutrient pollution to help develop their plans. Throughout the development process, we worked with a middle school STEM teacher to ensure the unit builds upon the science curriculum and the activities would be engaging and meaningful to students. The problem and location were chosen to illustrate that engineers can solve problems relevant to rural communities. Since people in rural locations tend to remain very connected to their communities throughout their lives, it is important to illustrate that engineering could be a relevant and viable career near home. The SCoPE curriculum was piloted with two teachers and 147 seventh grade students in a rural public school. Surveys and student drawings of engineers before and after implementation of the curriculum were used to characterize changes in students’ interest and beliefs about engineering. After completing the SCoPE curriculum, students’ ideas about engineers’ activities and the types of problems they solve were broadened. Students were 53% more likely to believe that engineers can protect the environment and 23% more likely to believe that they can identify problems in the community to solve (p < 0.001). When asked to draw an engineer, students were 1.3 times more likely to include nature/environment/agriculture (p < 0.01) and 3 times more likely to show engineers helping people in the community (p< 0.05) Additionally, while boys’ interest in science and engineering did not significantly change, girls’ interest in engineering and confidence in becoming an engineer significantly increased (Cohen’s D = 0.28, p<0.05). The SCoPE curriculum is available on PBS LearningMedia: https://www.pbslearningmedia.org/collection/solving-community-problems-with-engineering/ This project was funded by NSF through the Division of Engineering Education and Centers, Research in the Formation of Engineers program #202076. References American Society for Engineering Education. (2020). Framework for P-12 Engineering Learning. Washington, DC. DOI: 10.18260/1-100-1153 National Science Foundation, National Center for Science and Engineering Statistics. (2019). Women, Minorities, and Persons with Disabilities in Science and Engineering: 2019. Special Report NSF 17-310. Arlington, VA. https://ncses.nsf.gov/pubs/nsf21321/. Smith-Doerr, L., Alegria, S., & Sacco, T. (2017). How Diversity Matters in the US Science and Engineering Workforce: A Critical Review Considering Integration in Teams, Fields, and Organizational Contexts, Engaging Science, Technology, and Society 3, 139-153. 

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5. Board 52: Exploring Professional Identity Development in Undergraduate Civil Engineering Students Who Experience Disabilities

   Groen, C. J. ; McNair, L. D. ; Paretti, M. C. ; Simmons, D. R. ; Shew, A. ( June 2018 , 2018 ASEE Annual Conference & Exposition)

   Recent calls throughout the engineering education community have focused on increasing diversity and broadening participation in STEM, particularly within the field of engineering. Many of these conversations have been dominated by research examining race and gender, with little if any work addressing disability. Agencies such as the National Science Foundation and the American Institute for Research have begun to implore educators and researchers to include the experiences of disabled students within these conversations to gain a better understanding, meet the needs, and promote the success of this marginalized population. Such work is crucial to broadening participation in engineering, as students with disabilities can experience daily challenges not experienced by their peers without disabilities. Such challenges include the negotiation of physical, cultural, and bureaucratic structures to access necessary resources for academic and workplace success. In this paper, we introduce a recently-initiated longitudinal, grounded theory exploration of the experiences of civil engineering students with disabilities as they move through their undergraduate careers and into the workforce. To provide context and establish the need for this type of work in engineering education, we discuss prior research that highlights the current state of disability studies, particularly within the engineering education and higher education literature. We then identify the sensitizing concepts underpinning this study and outline our research methods, including data collection and analysis plans. As this project is currently in the initial phase, we conclude with a discussion of challenges encountered and strategies for overcoming those challenges as well as next steps. 

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