More Like this

1. fsQCA for discovering social emotional pathways to adult STEM engagement

   https://doi.org/10.1016/j.appdev.2025.101767  

   Wasserman, Deborah L; Altman, Jason Torres; Klein, Christine; Mohabir, Priya; Tisdal, Carey (May 2025, Journal of Applied Developmental Psychology)

   Not AvailableThe Roads Taken Project utilized fuzzy set qualitative comparative analysis (fsQCA) to examine necessary and sufficient conditions for achieving STEM involvement of alumnae(i) of six intensive STEM-based youth programs 15 to 25 years after participation. Outcomes included overall STEM involvement (including STEM academics and careers, personal STEM involvement, community STEM involvement, and long-term STEM identity), and post- program and program contribution to social-emotional learning and development. We identified conditions contributing to pathways to these outcomes. Results revealed that, although differing for the varied participant groups, social-emotional learning and development played a role in all the pathways but was particularly prominent in pathways to community STEM involvement. High program dose accompanied by a sense of competence, relatedness, and autonomy in programs with highly varied strategies led to social-emotional learning and varied by participant groups. Along with presenting findings, this study highlights fsQCA as a method for revealing the complex relationship of social-emotional development to STEM outcomes and the multiple pathways for achieving them. 

   more » « less
2. Disrupting deficit narratives in informal science education: applying community cultural wealth theory to youth learning and engagement

   https://doi.org/10.1007/s11422-020-10014-8  

   Habig, Bobby; Gupta, Preeti; Adams, Jennifer D. (March 2021, Cultural Studies of Science Education)

   null (Ed.)

   Informal learning organizations such as museums, zoos, aquaria, gardens, and community-based organizations are often positioned as having programming that fill a void that may exist in the lives of youth participants. Often these institutions do not recognize the assets that youth gain from their own homes and communities and bring to bear in these programs and that contribute to their success and persistence in STEM and academics. In this paper, we problematize the prevailing deficit-oriented approach to STEM enrichment programs for youth who are underrepresented in STEM. Drawing from Tara Yosso’s theory of community cultural wealth, we describe the STEM identity and trajectories of three individuals as they navigated a long-term, museum-based, informal science learning program. Using Yosso’s framework, we describe the capital that youth brought into the program and the ways that they leveraged this capital as they moved from middle to high school, and into their postsecondary studies and early careers in the sciences. Furthermore, we describe how their existing capital intertwined with capital they gained from the museum program in ways that fostered persistence and achievement in science. 

   more » « less
3. Math CEO: A Mutually Beneficial Partnership between College Mentors and Latinx Youths.

   Pantano, Alessandra (August 2024, Springer Nature Switzerland)

   This practice-oriented chapter highlights Math CEO, a university–community partnership at UC Irvine that connects middle school students from Santa Ana Title I schools with undergraduate mentors for weekly sessions of math enrichment. Its relationship‑driven mentoring, asset‑based curriculum design, and intentional integration of social‑emotional learning provide concrete strategies for building capacity in inclusive informal STEM education. Relevance and Implications for Practice: This chapter provides a practice‑based model for identifying and implementing culturally‑responsive informal pedagogical practices (CIPPs) in STEM afterschool programs. A mixed‑methods research study at Math CEO has documented reciprocal benefits: youth gain confidence, enjoyment of math, and early exposure to college life, while mentors develop instructional skills, self‑efficacy, and an interest in teaching or community‑focused careers. These dual impacts align closely with the grant’s goals of understanding how CIPPs influence both youth and afterschool staff, as well as building long‑term capacity for high‑quality, research‑informed informal STEM programming. 

   more » « less
4. Board 162: Engineering for Accessibility: Impacts of a High School Engineering Internship Model Across Different Settings (Work in Progress, DEI)

   https://doi.org/10.18260/1-2--46724  

   Forsyth, Stacey; Ogino, Tim; Ong, Angelina; Sickler, Jessica (June 2024, ASEE Conferences)

   This paper describes a collaborative effort to develop, implement and research an empathy-driven, accessibility-focused engineering internship program for teens underrepresented in science, technology, engineering and math (STEM). The program builds on a foundation developed by the Build a Better Book (BBB) project over several years and addresses a significant need to motivate, prepare and support a more diverse engineering workforce. Centered around principles of universal design, designing for accessibility, and engineering with empathy, this NSF-funded project examines how high school interns’ perceptions of engineering and self-identities as engineers are formed, nurtured, and cultivated as they design and create more accessible products for authentic community clients who are blind or visually impaired. Across sites, the project emphasizes building an inclusive and diverse community of interns, including many who may not initially view themselves as engineers. Underpinning this work is the People Part of Engineering framework, which emphasizes that engineering with people, as people and for people influences teens’ motivation and persistence of interest in engineering. To assess the effectiveness of the BBB teen internship model, the project team implemented and researched different formats of the program in two educational settings: an intensive 4-week summer program at a public university and an out-of-school-time, semester-long program at a public library makerspace. Combined, these programs engaged 59 youth in an iterative engineering design process focused on the design and fabrication of accessible products (e.g., games, toys and STEM learning models) for children and youth who are blind or have low vision. (An additional year-long, in-school program is currently in process.) Each program incorporates several key internship design principles, including authentic, client-based projects; a student-directed, collaborative work environment; and individual and team mentorship. The current project aims to impact teens’ perceptions of engineering, their engineering identity, and their confidence and competence in engineering and 21st century workplace skills. These outcomes were measured through a combination of quantitative and qualitative methods, including pre-/post- surveys and audio reflections by students, interviews with site leaders, and culminating focus group discussions. Early findings suggest positive changes in the intended outcomes, across sites, including broader perceptions about engineering and a growing overlap in identity between participants and engineers, increased confidence and competency in engineering and technical skills, and gains related to interpersonal skills and other 21st century skills such as communication, critical-thinking and collaboration. The project’s ongoing and future work will test the internship model at additional sites, including a school and science center, and continue to assess the effects of variation in program format, projects, work environment, and support and training on interns’ engineering identities, their persistence of interest in engineering and how they engage as young engineers with, as, and for people. 

   more » « less
5. Broadening equity through recruitment: Pre-college STEM program recruitment in literature and practice.

   Delale-O'Connor, L.; A. Allen; M. Ball; D. N. Boone; R. Gonda, J; Iriti; Slinskey Legg, A. (January 2021, Connected science learning)

   The National Science Foundation (2019) points to Black, Hispanic/Latino, American Indian, Alaskan Native, Native Hawaiian and other Pacific Island peoples as underrepresented in science, technology, engineering and math (STEM) college majors and professional pathways. This underrepresentation results from an interplay of representation and process, meaning that it in part results from STEM opportunities and programming that do not reflect the experiences of racially and ethnically diverse people, offer insight into the needs of diverse communities, nor address barriers that prevent participation (McGee 2020). One way that institutions of higher education (IHEs) and community organizations try to address inequities in STEM is through pre-college programs aimed at supporting racially and ethnically minoritized (REM) youth. These pre-college STEM programs (PCSPs) work to foster increased STEM awareness and support students in achieving academic milestones that make college pathways more viable. Out-of-school learning (OSL) and informal STEM programming have the potential to fill gaps in STEM K–12 education, as well as complement and support connections with K–12 STEM by offering REM youth opportunities to connect STEM with their lives and influence both their capabilities and dispositions toward STEM (Kitchen et al. 2018). Studies have pointed to positive connections between OSL STEM participation and outcomes such as high school graduation, sustained interest in STEM, and matriculation to university (Penuel, Clark, and Bevan 2016). PCSPs may also support IHE’s development of infrastructure to increase admissions of REM students into college STEM programs. For PCSPs to be an effective element of reducing inequities in STEM, they must successfully engage with and recruit REM youth to participate. In this article, we focus on the recruitment of REM youth into STEM OSL to better understand what is effective for REM youth and their families, as well as highlight connections between OSL and in-school STEM opportunities. Our goals in this work are to (1) identify program practices with the aim of broadening STEM educational and career pathways for REM youth and (2) support strengthened pathways between STEM in K–12 schools and IHEs. 

   more » « less