More Like this

1. 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. 

   more » « less
2. Undergraduate’s Social Capital and Engineering Professional Skills: Comparison Between Different Types of Institutions

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

   The purpose of our poster presentation is two-fold: 1) to provide an overview of our NSF project, Pandemic Impact: Undergraduates’ Social Capital and Engineering Professional Skills, and 2) to report our progress and preliminary quantitative findings. We hope to discuss our project and preliminary results with fellow engineering educators and receive feedback. The COVID-19 pandemic has impacted engineering education in multiple ways that will continue to be felt for years to come. One of the less understood ways the pandemic has continued to leave a residue on engineering education is how social distancing and online courses altered students’ professional development. Of particular concern are students who were either new to the institution or started their college education during the pandemic. These students have potentially limited opportunities to establish social relationships at their educational institutions compared to students who already developed such relationships when the pandemic-induced online learning took place. The differences in students’ social relationships can have other, more profound impacts on their undergraduate engineering experiences. Research has shown that students’ social relationships provide them with connections to resources and supports essential for navigating an engineering program and help them obtain more opportunities to practice non-technical professional skills [1], [2]. Although social distancing measures diminished and students returned primarily to in-person, the pandemic has altered the development of engineering students in ways not understood. In particular, understanding the nature of students’ social interactions on campus and the types of opportunities for professional development is essential so that instructors and campus staff can respond to the developmental needs of students. As a result, the overarching research question for our project is: How do engineering undergraduates leverage relationships (operationalized as social capital) to gain opportunities to develop professional skills? 

   more » « less
3. Impact of Computational Curricular Reform on Non-participating Undergraduate Courses: Student and Faculty Perspective

   Lee, Cheng-Wei; Schleife, Andre; Trinkle, Dallas R.; Krogstad, Jessica A.; Maass, Robert; Bellon, Pascal; Shang, Jian Ku; Leal, Cecilia; West, Matthew; Bretl, Timothy; et al (July 2019, 2019 ASEE Annual Conference & Exposition)

   A computational approach has become an indispensable tool in materials science research and related industry. At the University of Illinois, Urbana-Champaign, our team at the Department of Materials Science and Engineering (MSE), as part of a Strategic Instructional Initiatives Program (SIIP), has integrated computation into multiple MSE undergraduate courses over the last years. This has established a stable environment for computational education in MSE undergraduate courses through the duration of the program. To date, all MSE students are expected to have multiple experiences of solving practical problems using computational modules before graduation. In addition, computer-based techniques have been integrated into course instruction through iClicker, lecture recording, and online homework and testing. In this paper, we seek to identify the impact of these changes beyond courses participating in the original SIIP project. We continue to keep track of students' perception of the computational curriculum within participating courses. Furthermore, we investigate the influence of the computational exposure on students' perspective in research and during job search. Finally, we collect and analyze feedback from department faculty regarding their experience with teaching techniques involving computation. 

   more » « less
4. Impact of computational curricular reform on non-participating undergraduate courses: Student and faculty perspective

   C-W, Lee (June 2019, ASEE Annual Conference and Exposition, Conference Proceedings)

   A computational approach has become an indispensable tool in materials science research and related industry. At the University of Illinois, Urbana-Champaign, our team at the Department of Materials Science and Engineering (MSE), as part of a Strategic Instructional Initiatives Program (SIIP), has integrated computation into multiple MSE undergraduate courses over the last years. This has established a stable environment for computational education in MSE undergraduate courses through the duration of the program. To date, all MSE students are expected to have multiple experiences of solving practical problems using computational modules before graduation. In addition, computer-based techniques have been integrated into course instruction through iClicker, lecture recording, and online homework and testing. In this paper, we seek to identify the impact of these changes beyond courses participating in the original SIIP project. We continue to keep track of students’ perception of the computational curriculum within participating courses. Furthermore, we investigate the influence of the computational exposure on students’ perspective in research and during job search. Finally, we collect and analyze feedback from department faculty regarding their experience with teaching techniques involving computation. 

   more » « less
5. Advancing Hydroinformatics and Water Data Science Instruction: Community Perspectives and Online Learning Resources

   https://doi.org/10.3389/frwa.2022.901393  

   Jones, Amber Spackman; Horsburgh, Jeffery S.; Bastidas Pacheco, Camilo J.; Flint, Courtney G.; Lane, Belize A. (June 2022, Frontiers in Water)

   Hydroinformatics and water data science topics are increasingly common in university graduate settings through dedicated courses and programs as well as incorporation into traditional water science courses. The technical tools and techniques emphasized by hydroinformatics and water data science involve distinctive instructional styles, which may be facilitated by online formats and materials. In the broader hydrologic sciences, there has been a simultaneous push for instructors to develop, share, and reuse content and instructional modules, particularly as the COVID-19 pandemic necessitated a wide scale pivot to online instruction. The experiences of hydroinformatics and water data science instructors in the effectiveness of content formats, instructional tools and techniques, and key topics can inform educational practice not only for those subjects, but for water science generally. This paper reports the results of surveys and interviews with hydroinformatics and water data science instructors. We address the effectiveness of instructional tools, impacts of the pandemic on education, important hydroinformatics topics, and challenges and gaps in hydroinformatics education. Guided by lessons learned from the surveys and interviews and a review of existing online learning platforms, we developed four educational modules designed to address shared topics of interest and to demonstrate the effectiveness of available tools to help overcome identified challenges. The modules are community resources that can be incorporated into courses and modified to address specific class and institutional needs or different geographic locations. Our experience with module implementation can inform development of online educational resources, which will advance and enhance instruction for hydroinformatics and broader hydrologic sciences for which students increasingly need informatics experience and technical skills. 

   more » « less