More Like this

1. Work in Progress: Faculty Perceptions of STEM Student and Faculty Experiences during the Covid-19 Pandemic: A Fall 2020 Qualitative study.

   Lamssali, Mehdi; Ferguson, Alesia; Nicholas, Olivia; Ofori-Boadu, Andrea; White, Angela (August 2022, ASEE annual conference exposition)

   Miller, Eva (Ed.)

   COVID-19 is a continuing global pandemic causing significant changes and modifications in the ways we teach and learn here in the U.S as well as around the world. Most universities, faculty members, and students modified their learning system by incorporating significant online or mixed learning methods/modes to reduce in person contact time and to reduce the spread of the virus. Universities, faculty and students were challenged as they adapted to new learning modules, strategies and approaches. This adaption started in the Spring of 2020 and has continued to date through the Spring of 2022. The main objective of this project was to investigate faculty perception of STEM student experiences and behavior during the Fall 2020 semester as compared to the Spring 2020 semester as COVID-19 impacts were prolonged. Through a qualitative methodology of zoom interviews administered to 32 STEM faculty members across six U.S. Universities nationwide and a theming scheme, the opinion and narratives of these faculty members were garnered in a round one and round two sets of interviews, in Summer 2020 and then in Spring 2021 (following the semesters of interest). Some of the main new themes that were detected in faculty interviews during the Fall 2020 semester and which reflect faculty perceptions are represented as follow: COVID-19 impact on student and faculty motivation, COVID-19 impacts on labs and experiential learning, COVID-19 impact on mental health, COVID-19 impact on STEM students' involvement in STEM experiential learning opportunities and research. Other previous themes detected and which are revisited to analyze major differences with those themes obtained during the Spring 2020 are presented and not limited to: extra efforts from professors, student cheating behavior, cheating factors and prevention, student behavioral and performance changes, student struggles and challenges, University response and efforts to the COVID-19 pandemic. We explored the differences in these themes between the semesters to look at noticed adaptations and modifications. Presented will also be recommendations to improve student and faculty motivation along with strategies to enhance the student learning experience during the COVID-19 pandemic. We report on common findings and suggest future strategies. 

   more » « less
2. Problem-Based Learning Increases STEM Interest for High School Students and Instructors

   https://doi.org/10.22492/issn.2189-1036.2021.23  

   Reider, David; Davis, Nanasi; Nariman, Nahid (January 2021, The IAFOR International Conference on Education – Hawaii 2021)

   The goal of Project STEMulate, a National Science Foundation ITEST study (DRL 1657625), was to develop, implement, and evaluate a program that fosters success in STEM for underserved and underrepresented high school students. The project was implemented at three sites of the Department of Education Upward Bound Program in Hawaiˋi. Project STEMulate delivered teacher training on Problem-Based Learning curriculum to ensure students were motivated and empowered, and to support STEM- related postsecondary educational success of Hawaiian and Pacific Islander students. A critical design goal of the program was to introduce teaching and learning strategies and processes that were more relevant to underrepresented youth populations than those offered in typical high schools to provide opportunities and to increase participation in the STEM study and career trajectory, something all too often out of mind and scope of these students. This study reports on three years of mixed methods summer academy data on both student and teacher learning outcomes. Teacher dispositions, evidenced through data from interviews, observations, and multi-point surveys improved in a majority of the dimensions, including teaching inquiry-based approaches, integrating technology, and STEM career knowledge and awareness. Student motivation, Science self-efficacy, and STEM career interest, evidenced from similar data sources, increased as well. Finally, we discuss the larger implications of extending this work to impact similar populations elsewhere of isolated, under- resourced and under-exposed youth with these proven strategies. 

   more » « less
3. College Student Meaning Making and Interest Maintenance During COVID-19: From Course-Based Undergraduate Research Experiences (CUREs) to Science Learning Being Off-Campus and Online

   https://doi.org/10.3389/feduc.2020.590738  

   Wang, Cong; Bauer, Melanie; Burmeister, Alita R.; Hanauer, David I.; Graham, Mark J. (December 2020, Frontiers in Education)

   null (Ed.)

   In response to the outbreak of COVID-19 the national landscape of higher education changed quickly and dramatically to move “online” in the Spring semester of 2020. While distressing to both faculty and students, it presents a unique opportunity to explore how students responded to this unexpected and challenging learning situation. In four undergraduate STEM courses that incorporated course-based undergraduate research experiences (CUREs)—which are often focused on discovery learning and laboratory research—we had an existing study in progress to track students' interest development at five time points over the Spring 2020 semester. Via this ongoing study we were able to investigate how students stay engaged in their college science courses when facing unexpected challenges and obstacles to their learning. Longitudinal survey data from 41 students in these CURE courses demonstrated that students' situational interest dropped significantly when their CURE courses unexpectedly shifted from hands-on, discovery-based, and laboratory-based instruction to online instruction. Although we observed a dramatic decline in student interest in general after the CURE courses moved fully online, the decline rates varied across students. Students who were able to make meaningful connections between the learning activities and their personal or career goals were more likely to maintain a higher level of interest in the course. Implications for practice are discussed. 

   more » « less
4. Leveraging Prior Computing and Music Experience for Situational Interest Formation

   https://doi.org/10.1145/3408877.3432431  

   McKlin, Tom; McCall, Lauren; Lee, Taneisha; Magerko, Brian; Horn, Michael; Freeman, Jason (March 2021, SIGCSE '21: Proceedings of the 52nd ACM Technical Symposium on Computer Science Education)

   null (Ed.)

   Computer science educators often use multiple creative computing platforms to motivate and support students learning computer science. Arguably, we understand little about the complementary ways in which the various platforms build on students' prior experiences. This study compares two CS+music platforms used by middle school students in a summer camp to understand the unique affordances of each platform at activating and building upon prior music and computing experiences. We assess interest formation through pre and post student surveys and via interviews on the final day of the camp. The findings suggest that using different approaches to CS+music platform design may help engage students with different levels of prior music and coding experience. 

   more » « less
5. Student computer science self-efficacy, interest, and task value in grades K-8

   Nugent, G; Chen, K; Liu, D (March 2023, Association for the Advancement of Computing in Education (AACE))

   This research focused on documenting student computer science (CS) interest, value, and self-efficacy across K-8 grade levels. It also examined differences between various student subgroups. The research questions were: Are there differences in K-8 students’ ratings of CS interest, task value, and self-efficacy? How does interest, task value, and self-efficacy change across grades K-8? Are there differential effects depending on student gender, ethnicity, and locale (rural/urban)? Results showed a continuing decline in the three student outcomes across grades, mirroring the larger body of STEM research. Students’ perception of the value of computer science was significantly higher than their interest, which in turn was higher than their self-efficacy. This result suggests that student recognize the importance of CS and find it fun, but not easy. Moderation results showed no gender differences at the elementary level, but significantly higher middle school results for males on CS interest and self-efficacy. Ethnicity findings tended to favor majority (white) students, with the exception that grade 6 – 8 minority students had significantly higher interest ratings. Urban students had significantly higher results for all three outcomes at grades K-3 and 6 -8. The research extends research documenting the decrease of adolescent student STEM interest by focusing specifically on computer science and including results at the elementary level. 

   more » « less