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1. Work in Progress: Opportunities for Engineering Undergraduates to Develop Non-Technical Professional Skills during the COVID-19 Pandemic.

   Guanes, G.; Bill, V.; Li, T.; Martin, J. P.; Holloway, E.A.; Douglas, K. A. (July 2023, ASEE Annual Conference & Exposition, Baltimore, MD)

   This work-in-progress (WIP) paper aims to elucidate how students have developed professional skills since the onset of the COVID-19 pandemic and who are the people who have provided skill development opportunities. Because of the way social distancing affected engineering education during the pandemic, developing professional skills may have been a challenge for engineering students. While online courses and virtual meetings allowed students to remain in contact with faculty and each other, the opportunities to continue having deep relationships (i.e., strong ties) were sparse. Our paper presents an early look at findings from the qualitative phase of an explanatory mixed methods study conducted with 1,234 undergraduates from 13 schools in the US. Our ongoing thematic qualitative analysis reveals that the changes that accompanied social distancing and periods of emergency remote teaching caused by COVID-19 have reinforced different opportunities to develop professional skills than prior to the pandemic. While some students expressed they had fewer opportunities to develop professional skills, participants also identified opportunities to (1) hone written communication skills when inperson discussions were reduced and (2) leverage knowledge from family members to continue developing professionally. Our next steps include finishing the qualitative analysis phase of the project and mixing the qualitative and quantitative data to develop overarching findings that the engineering education community can use to understand how students’ professional skills develop and how to promote that development even during times of educational disruption. 

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2. Preparing undergraduates for the post-pandemic workplace: Teams of education and engineering students teach engineering virtually

   https://doi.org/10.1057/s41599-023-02383-6  

   Gutierrez, Kristie S; Kidd, Jennifer J; Lee, Min J; Pazos, Pilar; Kaipa, Krishnanand; Ayala, Orlando (December 2023, Humanities and Social Sciences Communications)

   When schools and universities across the world transitioned online due to the COVID-19 pandemic, Ed+gineering, a National Science Foundation (NSF) project that partners engineering and education undergraduates to design and deliver engineering lessons to elementary students, also had to shift its hands-on lessons to a virtual format. Through the lens of social cognitive theory (SCT), this study investigates engineering and education students’ experiences during the shift to online instruction to understand how they perceived its influence on their learning. As a result of modifying their lessons for online delivery, students reported learning professional skills, including skills for teaching online and educational technology skills, as well as Science, Technology, Engineering, and Mathematics (STEM) content. Some also lamented missed learning opportunities, like practice presenting face-to-face. Students’ affective responses were often associated with preparing and delivering their lessons. SCT sheds light on how the mid-semester change in their environment, caused by the shift in designing and teaching from face-to-face to online, affected the undergraduate engineering and education students’ personal experiences and affect. Overall, the transition to fully online was effective for students’ perceived learning and teaching of engineering. Though students experienced many challenges developing multimedia content for delivering hands-on lessons online, they reported learning new skills and knowledge and expressed positive affective responses. From the gains reported by undergraduates, we believe that this cross-disciplinary virtual team assignment was a successful strategy for helping undergraduates build competencies in virtual skills. We posit that similar assignment structures and opportunities post-pandemic will also continue to prepare future students for the post-pandemic workplace. 

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3. Under pressure: How do science teachers use capital to achieve agency during turbulent times?

   https://doi.org/10.1002/sce.21852  

   Diaz‐Clark, Elizabeth D; Otto, Josie L; Wright, Diane S; Lin_Hunter, Danielle E; Sample_McMeeking, Laura B; Weinberg, Andrea E; Balgopal, Meena M (May 2024, Science Education)

   Abstract Disruptions to education systems (e.g., the COVID‐19 pandemic) evoke a range of responses from teachers. Teachers are required to learn new skills, attend to students' social emotional needs, modify their instructional approaches, and discover innovative ways to engage their students in science, technology, and engineering courses, all while managing their own professional and personal needs. Although teachers of all disciplines adjust their instructional and curricular approaches in response to disruptions, the impetus for this study was to explore the unique challenges of science teachers during the COVID‐19 pandemic that affected their sense of agency (sense of control). To understand how science teachers acquired, used, and invested in capital (i.e., available resources with the potential to meet identified challenges) to achieve professional agency, we studied 113 science teachers in 2020−2021 when they experienced disruptions associated with the pandemic. An analysis of open‐ended responses from 60 teachers indicates that teachers who achieved agency shared four attributes. They (i) demonstrated an awareness of needed capital, (ii) acquired capital, (iii) used capital, and (iv) dedicated effort toward capital‐building for future use. Our findings inform science teacher educators and schools that are committed to mitigating science teacher attrition by understanding how teachers respond to personal and professional stresses. 

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4. The Freshman Year Innovator Experience (FYIE): Bridging the URM Gap in STEM

   Vargas_Hernandez, Noe; Ortega, Javier; Lozano, Karen; Marquez, Eleazar; Fuentes, Arturo (June 2023, ASEE Conference)

   The project focuses on increasing “effective STEM education and broadening participation” in underrepresented minority (URM) STEM students at the University of Texas Rio Grande Valley (UTRGV) to successfully face academic and professional challenges, recently exacerbated by the COVID-19 pandemic. The Freshman Year Innovator Experience proposes the development of self-transformation skills in freshman mechanical engineering students to successfully face academic and professional challenges exacerbated by the COVID-19 pandemic while working on two parallel projects of technical design innovation and academic career pathways. The authors will present the work in progress and preliminary results from a pilot implementation of the Freshman Year Innovator Experience. This project is funded by NSF award 2225247. 

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5. How to Support Career Technical Instructors to Develop Students' Professional Skills: Research Brief

   Lundh, P; Yarnall, L; Smith, E; Krishnamachari, A; Griffiths, R (July 2024, NA)

   NA (Ed.)

   Project GOALS (Greater Opportunities to Advance Lifelong Success), an NSF Advanced Technological Education targeted research project, brought together researchers and community college educators from 2020 through 2024 to co-develop, test, package, and distribute resources for developing technicians' professional skills. Through this work, the team discovered the barriers that hinder both instructors and students from connecting around professional skills development. To address these barriers, the Project GOALS team developed an instructional framework grounded in research that integrates focused low-stakes activities into classes as students work toward their technical certificates. Based on our research, we believe Project GOALS provides ways for students to students' career readiness. In this research brief, the team describes how the Project GOALS co-development collaboration revealed the supports that technical instructors need to build students' professional awareness and reflection habits. Through qualitative analysis, Project GOALS researchers discovered the challenges that prevent many instructors from sharing their honest assessments of students' professional skills. The brief describes findings and recommends ways that community colleges can provide the assistance and resources that instructors need to develop students' professional skills. 

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