There have been many initiatives to improve the experiences of marginalized engineering students in order to increase their desire to pursue the field of engineering. However, despite these efforts, workforce numbers indicate lingering disparities. Representation in the science and engineering workforce is low with women comprising only 16% of those in science and engineering occupations in 2019, and underrepresented minorities (e.g., Black, Hispanic, and American Indian/Alaskan Native) collectively representing only approximately 20% (National Center for Science and Engineering Statistics [NCSES], 2022). Additionally, engineering has historically held cultural values that can exclude marginalized populations. Cech (2013) argues that engineering has supported a meritocratic ideology in which intelligence is something that you are born with rather than something you can gain. Engineering, she argues, is riddled with meritocratic regimens that include such common practices as grading on a curve and “weeding” out students in courses.Farrell et al. (2021) discuss how engineering culture is characterized by elitism through practices of epistemological dominance (devaluing other ways of knowing), majorism (placing higher value on STEM over the liberal arts), and technical social dualism (the belief that issues of diversity, equity, and inclusion should not be part of engineering). These ideologies can substantially affect the persistence of both women and people of color–populations historically excluded in engineering, because their concerns and/or cultural backgrounds are not validated by instructors or other peers which reproduces inequality. Improving student-faculty interactions through engineering professional development is one way to counteract these harmful cultural ideologies to positively impact and increase the participation of marginalized engineering students. STEM reform initiatives focused on faculty professional development, such as the NSF INCLUDES Aspire Alliance (Aspire), seek to prepare and educate faculty to integrate inclusive practices across their various campus roles and responsibilities as they relate to teaching, advising, research mentoring, collegiality, and leadership. The Aspire Summer Institute (ASI) has been one of Aspire’s most successful programs. The ASI is an intensive, week-long professional development event focused on educating institutional teams on the Inclusive Professional Framework (IPF) and how to integrate its components, individually and as teams, to improve STEM faculty inclusive behaviors. The IPF includes the domains of identity, intercultural awareness, and relational skill-building (Gillian-Daniel et al., 2021). Identity involves understanding not only your personal cultural identity but that of students and the impact of identity in learning spaces. Intercultural awareness involves instructors being able to navigate cultural interactions in a positive way as they consider the diverse backgrounds of students, while recognizing their own privileges and biases. Relational involves creating trusting relationships and a positive communication flow between instructors and students. The ASI and IPF can be used to advance a more inclusive environment for marginalized students in engineering. In this paper, we discuss the success of the ASI and how the institute and the IPF could be adapted specifically to support engineering faculty in their teaching, mentoring, and advising.
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“Go[ing] Hard...as a Woman of Color”: A Case Study Examining Identity Work within a Performative Dance and Computing Learning Environment
Performing arts computing environments have received little attention in the educational sphere; yet, they offer opportunities for learners to validate their efforts, ideas, and skills through showcasing their work in a public-facing performance. In this work, we explore an out-of-school dance and computing educational program run by the organization, STEM From Dance. The organizational mission is to create an equitable learning experience for young women of color to engage with computing while exposing them to STEM careers. Through an analysis of eleven interviews with youth participants, instructors, and the executive director, we examine how the social, cultural, and political dimensions of the learning environment facilitate identity work in computing and dance. Our findings point to three primary activities used by the organization to promote equity: (1) providing psychological safety through a supportive community environment, (2) meaningfully engaging with learners’ social and cultural context through creative work with constructionist artifacts, and (3) actively promoting identity work as women of color in computing and STEM through both artifact work and community events. Applying the constructs of identity and psychological safety we explore the tensions and synergies of designing for equity in this performing arts and computing learning environment. We demonstrate how the seemingly contradictory elements of a high-stakes performance within a novice learning environment provides unique opportunities for supporting young women of color in computing, making them non-negotiable in the organization’s efforts to promote equity and inclusion. Our work illustrates how attending closely to the sociocultural dimensions in a constructionist learning environment provides lenses for navigating equity, identity work, and support for inclusive computing.
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- Award ID(s):
- 1933961
- NSF-PAR ID:
- 10356082
- Date Published:
- Journal Name:
- ACM Transactions on Computing Education
- Volume:
- 22
- Issue:
- 4
- ISSN:
- 1946-6226
- Page Range / eLocation ID:
- 1 to 29
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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- Free Publicly Accessible Full Text
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Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.1145/3531000
