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1. Student interest, concerns, and information-seeking behaviors related to COVID-19

   https://doi.org/10.1186/s43031-022-00053-2  

   Elsner, Jamie N.; Sadler, Troy D.; Zangori, Laura; Friedrichsen, Patricia J.; Ke, Li (April 2022, Disciplinary and Interdisciplinary Science Education Research)

   Abstract COVID-19 creates an opportunity for science classrooms to relate content about viruses to students’ personal experiences with the pandemic. Previous researchers have shown that students are interested in crisis situations like disease outbreaks; however, they primarily acquire information about these events through internet sources which are often biased. We argue that it is important to understand student interest, concerns, and information-seeking behaviors related to COVID-19 to support science classroom learning and engagement about the virus and other potential outbreaks. We surveyed 224 high school students and analyzed their responses to six open-ended questions. We found that students expressed the most interest in topics related to the origin of COVID-19 and vaccines. Their greatest concerns included contracting the virus or someone they know contracting the virus and vaccine distribution. Of our sample, only 6.7% reported using their teachers as their source of COVID-19 information. Science classrooms have the potential to pique students’ situational interest by discussing COVID-19 topics that are important to students, which can increase their academic performance, content knowledge, attention, and engagement in learning about viruses. Moreover, classroom instruction about COVID-19 by teachers has shown to alleviate students’ stress and anxiety. We provide key areas of student interest about COVID-19 to help educators address students’ questions and improve curricular resources on viral pandemics. 

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2. A Rapid and Formative Response by the Engineering Education Faculty to Support the Engineering Faculty and Students Throughout the Extreme Classroom Changes Resulting from the COVID-19 Pandemic

   https://doi.org/10.18260/1-2--36606  

   White, Lance; Jaison, Donna; Ray, Samantha; Brumbelow, Kelly; Fields, Sherecce; Barroso, Luciana; Watson, Karan; Hammond, Tracy (July 2021, 2021 ASEE Virtual Annual Conference Content Access)

   This paper describes an evidence based-practice paper to a formative response to the engineering faculty and students’ needs at Anonymous University. Within two weeks, the pandemic forced the vast majority of the 1.5 million faculty and 20 million students nationwide to transition all courses from face-to-face to entirely online. Never in the history of higher education has there been a concerted effort to adapt so quickly and radically, nor have we had the technology to facilitate such a rapid and massive change. At Anonymous University, over 700 engineering educators were racing to transition their courses. Many of those faculty had never experienced online course preparation, much less taught one synchronously or asynchronously. Faculty development centers and technology specialists across the university made a great effort to aid educators in this transition. These educators had questions about the best practices for moving online, how their students were affected, and the best ways to engage their students. However, these faculty’s detailed questions were answerable only by faculty peers’ experience, students’ feedback, and advice from experts in relevant engineering education research-based practices. This paper describes rapid, continuous, and formative feedback provided by the Engineering Education Faculty Group (EEFG) to provide an immediate response for peer faculty guidance during the pandemic, creating a community of practice. The faculty membership spans multiple colleges in the university, including engineering, education, and liberal arts. The EEFG transitioned immediately to weekly meetings focused on the rapidly changing needs of their colleagues. Two surveys were generated rapidly by Hammond et al. to characterize student and faculty concerns and needs in March of 2020 and were distributed through various means and media. Survey 1 and 2 had 3381 and 1506 respondents respectively with most being students, with 113 faculty respondents in survey 1, the focus of this piece of work. The first survey was disseminated as aggregated data to the College of Engineering faculty with suggested modifications to course structures based on these findings. The EEFG continued to meet and collaborate during the remainder of the Spring 2020 semester and has continued through to this day. This group has acted as a hub for teaching innovation in remote online pedagogy and techniques, while also operating as a support structure for members of the group, aiding those members with training in teaching tools, discussion difficult current events, and various challenges they are facing in their professional teaching lives. While the aggregated data gathered from the surveys developed by Hammond et al. was useful beyond measure in the early weeks of the pandemic, little attention at the time was given to the responses of faculty to that survey. The focus of this work has been to characterize faculty perceptions at the beginning of the pandemic and compare those responses between engineering and non-engineering faculty respondents, while also comparing reported perceptions of pre- and post-transition to remote online teaching. Interviews were conducted between 4 members of the EEFG with the goal of characterizing some of the experiences they have had while being members of the group during the time of the pandemic utilizing Grounded theory qualitative analysis. 

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3. A Project-Based Collaboration between Software Engineering and Criminology Students: Building Applications to Understand Racial Injustice in the Criminal Justice System.

   Pulimood, S. Monisha; Leigey, Margaret; Bates, Diane C.; Pearson, Kim; Mishra, Supriya (January 2022, Proceedings of the 44th International Conference on Software Engineering: Joint Track on Software Engineering Education and Training (ICSE-JSEET '22))

   Undergraduate software engineering courses typically require students to work on team-based projects that reinforce disciplinary content and soft skills. At the same time, these students, particularly those at liberal arts institutions, are required to take courses that focus on civic issues, including on racial and ethnic inequality. Often, students perceive these courses to be outside their disciplinary areas, and may not comprehend how these topics are applicable to computer science and software engineering. This paper reports on the experience of Pulimood and Leigey as they and their students grappled with issues of racial injustice in the criminal justice system, and drew upon their own disciplinary backgrounds to apply computational thinking and software engineering principles to help the community better understand these issues and advocate for reform. The paper also describes the experience of teaching courses from different disciplines in a collaborative model, working closely with a local community partner to support its work on an identified social issue, and the learning outcomes, as well as the benefits and challenges of this approach. Recommendations and future directions are also discussed. 

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4. Work in Progress: Faculty choice and reflection on teaching strategies to improve engineering self-efficacy

   Yu, Fan; Milord, Johanna Orton; Flores, Lisa Y.; & Marra, Rose. M. (June 2022, 2022 ASEE Annual Conference)

   This work-in-progress paper seeks to examine faculty choice of teaching strategies to improve students’ engineering self-efficacy [1], [2] (belief in one’s abilities to successfully accomplish tasks in engineering) as well as their reflections on the effectiveness of the teaching strategy. Increases in self-efficacy have been related to improved academic and career outcomes [3], especially for women in non-traditional fields such as engineering. The goal of the study is to determine simple yet effective strategies that can be implemented in engineering classrooms to improve self-efficacy. Seven engineering faculty members participated in a faculty learning community (FLC), a semester long program to learn about teaching strategies in each of the four areas of self-efficacy; mastery experiences (e.g., active learning, scaffolding), vicarious learning (e.g., guest lectures, peer mentors, group work), social persuasion (e.g., constructive feedback, positive self-talk), and emotional arousal (e.g., test anxiety, building rapport). The faculty then chose and implemented strategies in each of the four areas in one of their engineering courses. Monthly meetings of the FLC during implementation allowed faculty to share their experiences and suggestions for refinements in their teaching strategy. The paper examines the faculty member choice (why they chose to use particular strategies in their course) as well as their reflections on how well the strategy worked (impact on student learning vs ease of implementation). In addition, the paper examines in-class observations and student survey responses to determine if they felt a particular strategy was useful. The research seeks to identify strategies that faculty members chose and are viewed as effective by both the faculty and students. The presentation will seek additional feedback from the wider community on the effectiveness of teaching strategies to improve self-efficacy and future work will include the analysis of additional surveys that were administered to measure student self-efficacy with the goal of determining simple and effective strategies that can be implemented in engineering classrooms. 

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5. Faculty perceptions of and approaches towards engineering student motivation at Hispanic Serving Institutions

   Salgado, H; Kendall, M; Urquidi, Y; Coso Strong, A (July 2021, American Society for Engineering Education Annual Conference)

   This research paper examines faculty perceptions of and approaches towards fostering students’ motivation to learn engineering at Hispanic-Serving Institutions (HSIs). By aligning learning experiences with what motivates Hispanic or Latinx students, the resulting higher student motivation could increase the sense of belonging for underrepresented populations in engineering, ultimately improving student retention and persistence through meaningful instructional practices. Motivation to learn encompasses individuals' perspectives about themselves, the course material, the broader educational curriculum, and their role in their own learning [1]. Students’ motivation can be supported or hindered by their interactions with others, peers, and educators. As such, an educator’s teaching style is a critical part of this process [2]. Therefore, because of the link between a faculty member’s ability to foster student motivation and improved learning outcomes, this paper seeks to explore how engineering faculty approach student motivation in their course designs at Hispanic-Serving Institutions. Humans are curious beings naturally drawn to exploration and learning. Self Determination Theory (SDT), popularized by Ryan and Deci, describes the interconnection of extrinsic (external) and intrinsic (internal) motivators, acknowledging the link between student’s physiological needs and their learning motivations [1], [3]. SDT proposes that students must experience the satisfaction of competence, autonomy, and relatedness for a high level of intrinsic motivation. Further, research indicates that appropriately structured, highly autonomy-supportive teaching styles that foster intrinsic motivation are associated with improved student outcomes [2]. However, further research is needed to observe how faculty prioritize students’ innate needs and how they seek to foster student motivation in tangible ways within their engineering classrooms. Therefore, this paper seeks to answer the following research question: What educational supports do engineering faculty at HSIs propose to embed in their curricula to increase their students’ intrinsic motivation? To answer this question, thirty-six engineering educators from thirteen two- and four-year HSIs from across the continental United States were introduced to the SDT and approaches for supporting students’ intrinsic motivation during a multi-institutional faculty development workshop series. Participants were asked to reflect on and prototype learning experiences that would promote intrinsic motivation and fulfill students’ needs for competence, relatedness, and autonomy to learn engineering [1]. Data were collected through a series of reflection worksheets where participants were asked to describe their target stakeholders, define a course redesign goal, and generate possible solutions while considering the impact of the redesign on student motivation. Qualitative analysis was used to explore participant responses. Analysis indicates that the participants were more likely to simultaneously address multiple motivational constructs when attempting to improve student motivation, rather than addressing them individually. Some of these approaches included the adoption of autonomy-supportive and structured teaching styles. As a result of this research, there is potential to influence future faculty development opportunities at HSIs and further explore intentional learning experiences that promote and foster intrinsic motivation in the engineering classroom. 

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