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1. Developing Resources to Support Comprehensive Transfer Engineering Curricula: Assessing the Effectiveness of a Hybrid Materials Science Course

   https://doi.org/10.18260/p.26769  

   Dunmire, Erik; Enriquez, Amelito; Langhoff, Nicholas; Rebold, Thomas; Schiorring, Eva (June 2016, 2016 ASEE Annual Conference & Exposition)

   A substantial percentage of engineering graduates, especially those from traditionally underrepresented groups, complete their lower-division education at a community college before transferring to a university to earn their degree. However, engineering programs at many community colleges, because of their relatively small scale with often only one permanent faculty member, struggle to offer lower-division engineering courses with the breadth and frequency needed by students for effective and efficient transfer preparation. As a result, engineering education becomes impractical and at times inaccessible for many community college students. Through a grant from the National Science Foundation Improving Undergraduate STEM Education program (NSF IUSE), three community colleges from Northern California collaborated to increase the availability and accessibility of the engineering curriculum by developing resources and teaching strategies to enable small-to-medium sized community college engineering programs to support a comprehensive set of lower-division engineering courses. These resources were developed for use in a variety of delivery formats (e.g., fully online, online/hybrid, flipped face-to-face, etc.), providing flexibility for local community colleges to leverage according to their individual needs. This paper focuses on the development and testing of the resources for an introductory Materials Science course with 3-unit lecture and 1-unit laboratory components. Although most of the course resources were developed to allow online delivery if desired, the laboratory curriculum was designed to require some limited face-to-face interaction with traditional materials testing equipment. In addition to the resources themselves, the paper presents the results of the pilot implementation of the course during the Spring 2015 semester, taught using a flipped delivery format consisting of asynchronous remote viewing of lecture videos and face-to-face student-centered problem-solving and lab exercises. These same resources were then implemented in a flipped format by an instructor who had never previously taught the course, at a community college that did not have its own materials laboratory facilities. Site visits were arranged with a nearby community college to afford students an opportunity to complete certain lab activities using traditional materials testing equipment. In both implementations of the course, student surveys and interviews were used to determine students’ perceptions of the effectiveness of the course resources, student use of these resources, and overall satisfaction with the course. Additionally, student performance on assessments was compared with that of traditional lecture delivery of the courses in prior years. 

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2. Student Perceptions of the Complete Online Transition of Two CS Courses in Response to the COVID-19 Pandemic

   Farghally, M. F. (July 2021, 2021 ASEE Virtual Annual Conference Content Access, Virtual Conference)

   null (Ed.)

   Student perceptions of the complete online transition of two CS courses in response to the COVID-19 pandemic Due to the COVID-19 pandemic, universities across the globe switched from traditional Face-to-Face (F2F) course delivery to completely online. Our university declared during our Spring break that students would not return to campus, and that all courses must be delivered fully online starting two weeks later. This was challenging to both students and instructors. In this evidence-based practice paper, we present results of end-of-semester student surveys from two Spring 2020 CS courses: a programming intensive CS2 course, and a senior theory course in Formal Languages and Automata (FLA). Students indicated course components they perceived as most beneficial to their learning, before and then after the online transition, and preferences for each regarding online vs. F2F. By comparing student reactions across courses, we gain insights on which components are easily adapted to online delivery, and which require further innovation. COVID was unfortunate, but gave a rare opportunity to compare students’ reflections on F2F instruction with online instructional materials for half a semester vs. entirely online delivery of the same course during the second half. The circumstances are unique, but we were able to acquire insights for future instruction. Some course components were perceived to be more useful either before or after the transition, and preferences were not the same in the two courses, possibly due to differences in the courses. Students in both courses found prerecorded asynchronous lectures significantly less useful than in-person lectures. For CS2, online office hours were significantly less useful than in-person office hours, but we found no significant difference in FLA. CS2 students felt less supported by their instructor after the online transition, but no significant difference was indicated by FLA students. FLA students found unproctored online exams offered through Canvas more stressful than in-person proctored exams, but the opposite was indicated by CS2 students. CS2 students indicated that visual materials from an eTextbook were more useful to them after going online than before, but FLA students indicated no significant difference. Overall, students in FLA significantly preferred the traditional F2F version of the course, while no significant difference was detected for CS2 students. We did not find significant effects from gender on the preference of one mode over the other. A serendipitous outcome was learning that some changes forced by circumstance should be considered for long term adoption. Offering online lab sessions and online exams where the questions are primarily multiple choice are possible candidates. However, we found that students need to feel the presence of their instructor to feel properly supported. To determine what course components need further improvement before transitioning to fully online mode, we computed a logistic regression model. The dependent variable is the student's preference for F2F or fully online. The independent variables are the course components before and after the online transition. For both courses, in-person lectures were a significant factor negatively affecting students' preferences of the fully online mode. Similarly, for CS2, in-person labs and in-person office hours were significant factors pushing students’ preferences toward F2F mode. 

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3. Science Bootcamp Goes Virtual: A Compressed, Interdisciplinary Online Course-Based Undergraduate Research Experience (CURE) Promotes Psychosocial Gains in STEM Transfer Students

   Majka, Elizabeth; Guenther, Merrilee F.; Raimondi, Stacey L. (January 2021, Journal of microbiology biology education)

   null (Ed.)

   Course-based undergraduate research experiences (CUREs) are well-documented as high-impact practices that can broaden participation and success in STEM. Drawing primarily from a community-of-practice theoretical framework, we previously developed an interdisciplinary CURE course (Science Bootcamp) for STEM majors focused entirely on the scientific process. Among first-year students, Science Bootcamp leads to psychosocial gains and increased retention. In the current study, we test whether an online Science Bootcamp also improves outcomes for STEM transfer students—a group that faces “transfer shock,” which can negatively impact GPA, psychosocial outcomes, and retention. To this end, we redesigned Science Bootcamp to a two-week course for STEM transfer students to complete prior to beginning the fall semester at our four-year institution. Due to the COVID-19 pandemic, the course was conducted in an entirely virtual format, using primarily synchronous instruction. Despite the course being virtual, the diverse group of STEM majors worked in small groups to conduct rigorous, novel empirical research projects from start to finish, even presenting their results in a poster symposium. Assessment data confirm the compressed, online Science Bootcamp contains key CURE components—opportunities for collaboration, discovery/relevance, and iteration—and that students were highly satisfied with the course. Moreover, in line with our hypothesis, STEM transfer students who participated in the online Science Bootcamp experienced a range of psychosocial gains (e.g., belonging to STEM). In sum, these findings suggest our online Science Bootcamp promotes positive STEM outcomes, representing a highly flexible and affordable CURE that can be scaled for use at institutions of any size. 

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4. Rapid transition of traditionally hands-on labs to online instruction in engineering courses

   https://doi.org/10.1080/03043797.2022.2046707  

   May, Dominik; Morkos, Beshoy; Jackson, Andrew; Hunsu, Nathaniel J.; Ingalls, Amy; Beyette, Fred (September 2023, European Journal of Engineering Education)

   The COVID-19 pandemic forced universities to suspend face-to-face instruction, prompting a rapid transition to online education. As many lab courses transitioned online, this provided a rare window of opportunity to learn about the challenges and affordances that the online lab experiences created for students and instructors. We present results from exploratory educational research that investigated student motivation and self-regulated learning in the online lab environment. We consider two student factors: motivation and self-regulation. The instrument is administered to students (n = 121) at the beginning of the semester and statistically analysed for comparisons between different demographic groups. The results indicated students' major was the only distinguishing factor for their motivation and self-regulation. Students' unfamiliarity with online labs or uncertainty about what to expect in the course contributed to the lower levels of self-regulation. The lack of significant differences between various subgroups was not surprising, as we posit many students entered the virtual lab environment with the same level of online lab experience. We conducted interviews among these respondents to explore the factors in greater detail. Using latent Dirichlet allocation, three main topics that emerged: (1) Learning Compatibility, (2) Questions and Inquiry, and (3) Planning and Coordination. 

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5. Impact of COVID-19 Curricular Shifts on Learning Gains on the Microbiology for Health Sciences Concept Inventory

   https://doi.org/10.1128/jmbe.v22i1.2425  

   Seitz, Heather; Rediske, Andrea (April 2021, Journal of Microbiology & Biology Education)

   ABSTRACT As a validated assessment, the Microbiology for Health Sciences Concept Inventory (MHSCI) is a valuable tool to evaluate student progress in health sciences microbiology courses. In this brief analysis, we survey MHSCI faculty users and report student MHSCI scores to determine the impact on student learning gains of the COVID-19 pandemic and subsequent quarantine in spring 2020. Although a majority of students reported moving to a fully online lecture and lab microbiology course in the spring 2020 semester, there was no statistically significant impact on student outcomes reported by the MHSCI, and by some measures, student learning gains increased in the semester students moved to online learning. Further research is necessary to determine the continuing impact of online lecture/lab courses on student outcomes on the MHSCI. Our analysis of data from spring 2020 shows that the MHSCI is still a statistically reliable measure of student misconceptions and overall difficulty scores for each item on the MHSCI was unchanged due to the pandemic. 

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