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1. Collaboration Instead of Competition: Blending Existing Pre-College Engineering Programs for Greater Impact

   https://doi.org/10.1109/FIE56618.2022.9962655  

   Dalal, Medha; Carberry, Adam; Efe, Steve; James-Okeke, Petronella; Rogers, David (October 2022, Frontiers in Education Conference)

   This Innovative Practice Work-in-Progress paper aims to capture a unique attempt to break down silos between two pre-college STEM initiatives. A myriad of programs has emerged to provide pre-college students with engineering or robotics experiences. Such initiatives are typically undertaken independent of one another. Engineering For Us All (e4usa) and For Inspiration and Recognition of Science and Technology (FIRST) are two such programs designed to excite youth about STEM careers, specifically engineering. One provides a classroom experience, while the other is primarily extracurricular, affording informal learning experiences. The parallel missions of these two programs provided the impetus for a new partnership, e4usa+FIRST, to leverage the collective strengths of each program and expand engineering access to underserved schools. A workshop was conducted that brought together a variety of stakeholders to explore numerous approaches of blending the two programs. This paper details the design of the workshop and the five emergent blending models. The results advance an argument for the involvement of all stakeholders to create an ecosystem at the pre-college level to broaden participation in engineering education. The study has the potential to impact future motivation and design of pre-college STEM education and outreach programs. 

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2. Strategies for Developing, Expanding, and Strengthening Community College Engineering Transfer Programs

   Enriquez, A.; Langhoff, N.; Dunmire, E.; Rebold, T; Pong, W. (June 2018, American Society for Engineering Education)

   Broadening participation in engineering among underrepresented minority students remains a big challenge for institutions of higher education. Since a large majority of underrepresented students attend community colleges, engineering transfer programs at these community colleges can play an important role in addressing this challenge. However, for most community college engineering programs, developing strategies and programs to increase the number and diversity of students successfully pursuing careers in engineering is especially challenging due to limited expertise, shrinking resources, and continuing budget crises. This paper is a description of how a small engineering transfer program at a Hispanic-Serving community college in California developed effective partnerships with high schools, other institutions of higher education, and industry partners in order to create opportunities for underrepresented community college students to excel in engineering. Developed through these partnerships are programs for high school students, current community college students, and community college engineering faculty. Programs for high school students include a) the Summer Engineering Institute – a two-week residential summer camp for sophomore and junior high school students, and b) the STEM Institute – a three-week program for high school freshmen to explore STEM fields. Academic and support programs for college students include: a) Math Jam – a one-week intensive math placement test review and preparation program; b) a scholarship and mentoring program academically talented and financially needy STEM students; c) a two-week introduction to research program held during the winter break to prepare students for research internships; d) a ten-week summer research internship program; e) Physics Jam – an intensive program to prepare students for success in Physics; f) Embedded Peer Instruction Cohort – a modified Supplemental Instruction program for STEM courses; g) STEM Speaker Series – a weekly presentation by professionals talking about their career and educational paths. Programs for community college STEM faculty and transfer programs include: a) Summer Engineering Teaching Institute – a two-day teaching workshop for community college STEM faculty; b) Joint Engineering Program – a consortium of 28 community college engineering programs all over California to align curriculum, improve teaching effectiveness, improve the engineering transfer process, and strengthen community college engineering transfer programs; c) Creating Alternative Learning Strategies for Transfer Engineering Programs – a collaborative program that aims to increase access to engineering courses for community college students through online instruction and alternative classroom models; and d) California Lower-Division Engineering Articulation Workshop – to align the engineering curriculum. In addition to describing the development and implementation of these programs, the paper will also provide details on how they have contributed to increasing the interest, facilitating the entry, improving the retention and enhancing the success of underrepresented minority students in engineering, as well as contributing to the strengthening of the community college engineering education pipeline. 

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3. Chemical Engineering for Middle School Girls (Resource Exchange)

   https://doi.org/10.18260/1-2--34278  

   Asatekin, Ayse; Shamah, Isadora; Klotz, Abigail; Portsmore, Merredith; Forte, Michael; Shute, Russell (June 2020, Chemical Engineering for Middle School Girls)

   As part of an NSF CAREER project [blinded] , [blinded university] developed a one-week chemical engineering summer workshop targeted at middle school girls with the goal of bolstering participation and interest in the field by presenting chemical engineering as a creative and dynamic field. This paper will present a spherification activity which introduces chemical reactions, membranes, resource management, engineering design, and more. Furthermore, links to the full set of activities developed for the week that can be used individually or collectively are provided. In the summer program, students engage in experiments providing simplified background knowledge on foreign material such as chemical reactions, polymer morphology, separations, and thermodynamics. The students then work on hands-on activities to solve engineering design problems using learned information. For the final activity, students collaboratively design a process to scale up a spherification experiment 

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4. A participatory approach to iteratively adapting game design workshops to empower autistic youth

   https://doi.org/10.3389/feduc.2023.1179548  

   Gillespie-Lynch, Kristen; Grossman, Eliana; Herrell, Jessye; Riccio, Ariana; Delos_Santos, Jin; Biswas, Sharang; Kofner, Bella; Dwyer, Patrick; Rosenberg, Beth; Hwang-Geddes, Lillian; et al (July 2023, Frontiers in Education)

   Introduction: Autistic people face systemic barriers to fair employment. Informal learning may promote the self-determination transition-age autistic youth need to overcome and/or transform these barriers. This report focuses on the iterative process of developing video game design workshops guided by feedback from autistic students about instructional strategies they found engaging. This study is part of a three-year-long NSF-funded program of research that seeks to empower autistic youth to move toward successful careers by teaching educators how to more effectively guide them. Methods: In the Summer of 2021, educators at an award-winning NYC-based, not-for-profit, education program, Tech Kids Unlimited (TKU) collaborated with researchers, including autistic students, to iteratively develop and assess two online game design workshops for transition-age autistic youth. Participants selected which workshop they were available for (Workshop 1: n = 18; M age = 16.72  years; Workshop 2: n = 16; M age = 16.56  years). Students in Workshop 2  had more varied support needs and were less motivated to learn video game design than students in Workshop 1. Students completed assessments before and after each workshop and rated their interest in specific workshop activities after each activity. Guided by data from Workshop 1, we revised instructional strategies before conducting Workshop 2. Results: We found little evidence for our hypothesis that attentional style would impact educational engagement. However, video game design self-efficacy and self-determination were often positively associated with engagement. Two industry speakers, one of whom was autistic, were among the highest-rated activities. As hypothesized, video game design self-efficacy and self-determination (and unexpectedly) spatial planning improved from pre- to post-test following Workshop 1. Despite our efforts to use what we learned in Workshop 1 to improve in Workshop 2, Workshop 2 did not lead to significant improvements in outcomes. However, students highlighted instructional strategies as a strength of Workshop 2 more often than they had for Workshop 1. Educators highlighted the importance of group “temperature checks,” individualized check-ins, social–emotional support for students and educators, and fostering a positive atmosphere. Discussion: Findings suggest that interactive multimodal activities, stimulating discussions, and opportunities to engage with neurodivergent industry professionals may engage and empower diverse autistic youth. 

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5. Enriching the REU Experience through Student-Led Outreach Activities

   https://doi.org/10.18260/1-2--42747  

   DelVescovo, Dan; Groomes, Darlene; Bryant, Bianca; Guessous, Laila (June 2023, ASEE Conferences)

   The benefits of undergraduate student experiences are well known. Students participating in research experience for undergraduates (REU) programs report increased skills and self-confidence, a greater sense of empowerment as learners and more motivation to pursue science or engineering careers and graduate degrees. REU programs generally aim to engage students in exciting and rewarding research and professional development experiences to motivate them to pursue careers or advanced degrees in the sciences, technology, engineering and math (STEM). Unlike most other types of summer internships, REU programs are typically very student-focused. The faculty mentors, projects, activities, seminars, tours, etc. are selected to generate a positive impact on the student participants. After many years of offering a successful REU experience, the AERIM REU program at Oakland University (OU) decided to include a K-12 outreach component to its list of REU activities. This decision was driven by the many documented benefits of service-learning programs, which not only are of value to the persons receiving the service, but also the students providing it. They also help students improve their interpersonal and communication skills and develop a better understanding of the needs of people with diverse or different backgrounds. After pivoting to a virtual format in the summer of 2021 due the Covid-19 pandemic, the AERIM REU program was once again offered in-person in the summer of 2022, hence allowing for an outreach activity. The initial plan was to partner with a non-profit science center in the city of UU. Unfortunately, the science center was experiencing staffing changes, as well as ongoing challenges due to Covid-19, so the AERIM REU PIs had to come up with an alternative. The school of engineering and computer science at OU has a robust and active K-12 outreach program and has partnered with the RRR society to offer a summer residential STEM program, targeting under-represented minority high-school girls from the city of UU. Working in coordination with the assistant director of outreach, AERIM REU students were tasked with developing outreach activities and presentations for the camp participants. Each REU team was responsible for developing one 1-1.5 hour activity. REU students were given complete flexibility to develop their outreach activities with little faculty influence, but were encouraged to focus on hands-on activities that could relate back to their ongoing REU research projects and that would excite the camp participants about STEM. In this paper, we report on the organization and results of this initiative. Assessment results of the outreach activity will also be shared. We believe that this type of information could prove to be of value to other REU program directors and faculty seeking to organize similar programs. 

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