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1. Engineering Projects in Community Service (EPICS) High: Preliminary Findings Regarding Learning Outcomes for Underrepresented Students (Work in Progress, Diversity; Board 130)

   Ruth, Alissa; Spence, Tameka; Velez, Jennifer; Parker, Hope; Ganesh, Tirupalavanam G. (June 2018, ASEE annual conference & exposition proceedings)

   Engineering Projects in Community Service (EPICS) High utilizes human-centered design processes to teach high school students how to develop solutions to real-world problems within their communities. The goals of EPICS High are to utilize both principles from engineering and social entrepreneurship to engage high and middle school students as problem-solvers and spark interest in STEM careers. Recently, the Cisco corporate advised fund at the Silicon Valley Community Foundation, granted Arizona State University funds to expand EPICS High to underrepresented students and study the student outcomes from participation in this innovative program. In this exploratory study we combined qualitative methods—in person observations and informal interviews—along with pre and post surveys with high school students, to answer the questions: What skills do students gain and how does their mindset about engineering entrepreneurship develop through participation in EPICS High? Research took place in Title I schools (meaning they have a high number of students from low-income families) as well as non-Title I schools. Our preliminary results show that students made gains in the following areas: their attitudes toward engineering; ability to improve upon existing ideas; incorporating stakeholders; overcoming obstacles; social responsibility; and appreciation of multiple perspectives when solving engineering problems. While males have better baseline scores for most measures, females tend to have the most growth in many of these areas. We conclude that these initial measures show positive outcomes for students participating in EPICS High, and provide questions for further research. 

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2. Does EPICS as a Pre-college Program Foster Engineering Identity Development as Correlated to Doing Engineering?

   https://doi.org/10.18260/1-2--34475  

   Ferrone, Ciera; Ganesh, Tirupalavanam; Velez, Jennifer; Collofello, James; Squires, Kyle (June 2020, 2020 ASEE Virtual Annual Conference Content Access)

   null (Ed.)

   Engineering Projects in Community Service (EPICS) is a middle and high school program, with a focus on the engineering design process and delivering real solutions to community partners. In order to evaluate the efficacy of the program, a pre-post test design was implemented to examine changes in attitudinal and behavioral measures. Pre-data were collected at the beginning of the school year, and paralleled the program’s registration process to ensure high response rates; post- data were then collected at the end of the school year. Demographic data demonstrate that of all 2018 - 2019 registered EPICS participants (N = 414), 41 percent were female; 66.6 percent were non-white; and 30 percent held first generation student status. Importantly, 68.5 percent of participants reported that neither parent or guardian is an engineer, and 65.7 percent of participants reported that they “definitely will attend” a four-year university. These data suggest that the current sample is ideal for evaluating EPICS as a pre-college engineering education program, because most participants are not experiencing engineering in the home and may be less susceptible to parental pressures for choosing engineering as a college major and potential career, but have salient intentions to attend college. In addition to collecting demographic information, participants completed a series of measures designed to capture attitudes and behaviors toward engineering as a potential career field. The main measures of interest include Engineering Identity and Doing Engineering. Engineering Identity scores reflect participants’ personal and professional identities as engineers; Doing Engineering scores indicate participants’ prior experience with engineering and its related technical skills. Baseline data on the sample reveal average engineering identities (M = 38.41, SD = 6.44, 95% CI [37.77, 39.05]). A series of t-tests was conducted to examine gender differences in these measures. Men reported significantly higher engineering identities (M = 37.65, SD = 6.58) compared to women (M = 39.54, SD = 6.09), t(360) = 2.95, p = .003, F = .037. Men reported stronger and more frequent experiences with engineering, indicated by their higher Doing Engineering scores (M = 13.75, SD = 5.16), compared to women (M = 15.31, SD = 4.69), t(368) = 3.13, p = .002, F = .003. Interestingly, first generation students reported higher engineering identities (M = 37.45, SD = 6.53) compared to non-first generation students (M = 39.66, SD = 5.99), t(375) = 3.46, p = .001, F = 1.39. To examine the relationship between Engineering Identity and Doing Engineering, a correlation analysis was conducted and a moderate, positive relationship emerged, such that as students’ experience with engineering increased, their engineering identities also increased (R = .463, p > .000). 

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3. Board 357: Psychosocial and Skills-Based Outcomes of Participating in Vertically Integrated Projects (VIP)

   https://doi.org/10.18260/1-2--46940  

   Stewart, Craig; Preza, Chrysanthe; Ivey, Stephanie (June 2024, ASEE Conferences)

   Challenge or problem-based learning help students develop deeper content understanding and enhanced STEM skillsets and provide opportunities for learning across multiple contexts. Educational interventions that include active learning, mentoring, and role modeling are particularly important in recruiting and retaining female and minority students in STEM. With this framework in mind, we implemented the Vertically-Integrated Projects (VIP) model at a public urban research university in the 2022-2023 academic year with the goal of helping participating students increase engineering and STEM identity and other psychosocial outcomes. This paper reports the results from the first year of our VIP program. At the beginning and end of the academic year, participants completed measures of engineering identity; engineering self-efficacy; engineering mindset; intention to remain in the engineering major; intention to have a career in engineering; and STEM professional identity. Wilcoxon Signed Ranks (N=10) tests showed no statistically significant differences on any of these measures. Participants also responded to 20 items assessing their perceptions of their level of knowledge and skills in a variety of areas relevant to their experience in the VIP program. Wilcoxon Signed Ranks tests (N=10) revealed some statistically significant differences between pre- and post-test. Specifically, students tended to see themselves as having greater knowledge or skills in planning a long-term project, communicating technical concepts and designs to others, designing systems, components, or processes to meet practical or applied needs, understanding computer hardware and systems, working on a multidisciplinary team, and making ethical decisions in engineering/research. Finally, at the end of the Spring semester, participants rated the extent to which they perceived the VIP program helped them to develop their skills on the same 20 items. Most participants believed the VIP program helped them to develop each skill either somewhat or a great deal. Overall, while participation in the VIP program did not influence student engineering identity, self-efficacy, mindset, or major/career intentions, it was associated with increased self-perceived abilities on six specific skills. Additionally, most participants agreed that the VIP program helped them develop 20 skills at least “somewhat.” 

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4. Place-Based Experiential Learning: A Pathway to Sustainability and Environmental Literacy

   https://doi.org/10.3102/1893023  

   Sorge, B.H.; Fore, G.A.; Williamson, F.A.; Angstmann, J.L. (April 2022, 2022 Annual Meeting of the American Educational Research Association)

   When implemented effectively, Place-Based Experiential Learning (PBEL) pedagogies have been shown through different studies to enhance student content knowledge, course engagement, critical thinking skills, and civic-mindedness. This research followed 10 semester long university courses, during one academic year, implementing PBEL pedagogies with a focus on urban farming. Courses came from a wide array of disciplines including courses focused on science, technology, engineering, or mathematics as well as many non-STEM courses. Students completed pre- and post-assessments to measure change in civic-mindedness, place attachment, situated sustainability meaning-making, and environmental scientific literacy. Statistically significant positive change with small to moderate effect sizes were found in student’s environmental scientific literacy, situated sustainability meaning-making, place attachment, and civic-mindedness. 

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5. Evaluating STEM-Based Sustainability Understanding: A Cognitive Mapping Approach

   https://doi.org/10.3390/su13148074  

   Petrun Sayers, Elizabeth L.; Craig, Christopher A.; Skonicki, Emily; Gahlon, Grace; Gilbertz, Susan; Feng, Song (July 2021, Sustainability)

   null (Ed.)

   Management education holds promise for addressing deficiencies in interuniversity science, technology, engineering, and mathematics (STEM), as well as sustainability curricula. Accordingly, we designed, developed, implemented, and longitudinally evaluated interdisciplinary STEM-based curricula in the United States. Students in five sections of business management courses and two sections of STEM courses received a STEM-based sustainability intervention (i.e., an interdisciplinary STEM and sustainability module). To assess student outcomes following the intervention and examine the feasibility of cognitive mapping as a student learning assessment tool, we implemented a pre- and post-course modified cognitive mapping assessment in treatment and comparison courses. To interpret the results, we ran descriptives, correlations, paired sample t tests, and principal component analysis. The t tests suggest that when all coding categories are considered, those participating in curricular interventions listed significantly more sustainability terms. The principal component analysis results demonstrate that treatment courses improved variability explained by 7.23% between pre- and post-tests but declined by 8.22% for comparison courses. Overall, linkages became stronger between parent code categories for treatment courses and weaker for comparison courses. These findings add to existing research related to cognitive mapping and demonstrate the ability of the method to capture changes in student outcomes after exposure to STEM-based sustainability curriculum. 

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