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1. Student knowledge gains in polar literacy and statistics after completing guided inquiry modules in an undergraduate statistics course

   https://doi.org/10.1080/10899995.2024.2426438  

   Rowe, Penny M; Bernhard, James; Price, Jacob; Adhav, Anoushka; Dolan, Danielle; Van_Boven, Anna; Fortmann, Lea; Town, Michael; Neshyba, Steven (November 2024, Journal of Geoscience Education)

   Climate change is a major concern to undergraduate students. Understanding climate change relies on an understanding of polar regions. However, courses on polar regions are rare at undergraduate institutions. Polar ENgagement through GUided INquiry (PENGUIN) modules were designed to give students experience with polar research in a variety of standard courses, including physics, computer science, physical chemistry, and economics, through using course-specific and computational tools to analyze polar data. Here, we present a new PENGUIN module taught in a statistics class, in which students apply statistical tools to ice core data to reconstruct past temperature records. Quantitative student responses on pre- and post-surveys were collected in a quasi-experimental context to assess student knowledge gains for a test group of 91 students and a control group of 73 students (who did not complete the module). Test-group students made statistically significant increases of 25 to 46% on all six statistics questions, with a normalized gain of 56%. By contrast, control group statistics knowledge gains ranged from −4 to 25%, with statistically significant increases for only three questions and a normalized gain of 22%. For polar research questions, the test group demonstrated increases in correct responses to polar research questions (11 to 31%), with statistically significant improvements (p < .05) of 22-31% on 3 of 6 polar research questions. These findings support the conclusion that PENGUIN modules can successfully teach course concepts while increasing polar literacy. 

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2. Impact of 3D-printed laboratory equipment in vibrations and controls courses on student engineering identity, motivation, and mindset

   https://doi.org/10.1177/03064190231205013  

   Utschig, Tris; Tekes, Ayse; Linden, Maureen (October 2023, International Journal of Mechanical Engineering Education)

   This paper describes the implementation of innovative 3D-printed laboratory equipment linked to inquiry-based learning activities designed to improve learning, increase engineering identity and motivation, and foster a growth mindset in students taking undergraduate level mechanical vibrations courses, control theory courses, and associated laboratories. These innovative designs create new opportunities for hands-on learning, are low-cost, portable, and can be adapted for use in multiple science and engineering disciplines. The learning activities are based on the POGIL model, which has been used across a variety of disciplines including engineering. We describe the features of three separate devices (spring-connected sliding carts, compliant parallel arms with fixed-free ends and a slider mass, and a pendulum with variable tip load) implemented using a quasi-experimental approach with 510 duplicated students across three semesters during the COVID-19 pandemic in multiple lecture courses and laboratory sections. We also present an assessment of impact based on descriptive statistical analyses of survey data for student-reported learning gains and pre-post paired comparison tests on validated instruments measuring perceptions of engineering identity, engineering motivation, and growth mindset. Further, we conducted a student focus group and include salient instructor observations. Results show most students participating in the learning activities using these devices report that it supported their learning “a lot” or “a great deal.” In addition, on six of seven surveyed learning outcomes, most students reported feeling confident enough to complete them on their own or even teach them to someone else. Our data did not show a measurable impact on engineering identity, engineering motivation, or growth mindset, though it does suggest further investigation is merited. 

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3. AN NSF GEOPATHS FUNDED COMBINED SUMMER AND FALL COURSE-BASED UNDERGRADUATE RESEARCH EXPERIENCE TO ATTRACT AND RETAIN A DIVERSE GROUP OF STUDENTS INTO A NEW ENVIRONMENTAL GEOLOGY PROGRAM

   MacDonald, J.H.; Abercrombie, M.; Rotz, R.R.; Barbosa, A. (January 2022, American Geophysical Union Fall Meeting)

   Twenty-six students participated in an NSF GEOPATHs funded undergraduate research experience. This experience consisted of a two-week field-based summer research course and a follow-up 15-week course-based undergraduate research experience. The goal of this project was to attract, retain, and graduate a diverse group of students into a new Environmental Geology BS program. Hispanic and female students were targeted for the cohorts. 58% of our cohort were female, 27% were Hispanic, and 8% were black. The students were split into two groups. One group focused on barrier island groundwater in Southwest Florida and the other group studied calcite from Southwest Florida. Students in the groundwater cohort learned how to install temporary groundwater wells, collect groundwater and surface water samples, use probes and laboratory methods to measure water quality. Students in the calcite group learned how to collect and prepare samples for analytical work and use advanced instrumentation to determine the calcite’s unit cells, atomic bonding, and classification. Summative assessments based on Creative Exercises of Lewis et al. (2010) were given as pre- and post-tests during the summer field courses and again at the end of the fall course. A combined mean score for the summer pre-tests was 45%, while the fall post-tests score was 68%. A paired samples t-test for the combined summer assessment suggests a statistically significant difference between the pre- and post-test scores (t-score = 2.06; P = 2.55 x 10-6). An attitude assessment was based on Lopatto (2010) CURE survey and was given at the end of both courses. The students indicated this research experience increased their confidence to: conduct more research, and research with an outdoor component; help them identify as a scientist; and, positively influenced their decision to major in environmental geology. The students also indicated the location of the research experiences in Southwest Florida caused them to be more invested in the research. This suggests sense of place was impactful to the students’ positive experiences during this project. 

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4. When is Reading More Effective than Tutoring? An Analysis Through the Lens of Students' Self-Efficacy among Novices in Computer Science

   https://doi.org/10.5281/zenodo.7761603  

   Oli, Priti; Banjade, Rabin; Narayanan, Arun Balajiee; Brusilovsky, Peter; Rus, Vasile (January 2023, Proceedings of 7th Educational Data Mining in Computer Science Education (CSEDM) Workshop at LAK 2023)

   Self-efficacy, or the belief in one's ability to accomplish a task or achieve a goal, can significantly influence the effectiveness of various instructional methods to induce learning gains. The importance of self-efficacy is particularly pronounced in complex subjects like Computer Science, where students with high self-efficacy are more likely to feel confident in their ability to learn and succeed. Conversely, those with low self-efficacy may become discouraged and consider abandoning the field. The work presented here examines the relationship between self-efficacy and students learning computer programming concepts. For this purpose, we conducted a randomized control trial experiment with university-level students who were randomly assigned into two groups: a control group where participants read Java programs accompanied by explanatory texts (a passive strategy) and an experimental group where participants self-explain while interacting through dialogue with an intelligent tutoring system (an interactive strategy). We report here the findings of this experiment with a focus on self-efficacy, its relation to student learning gains (to evaluate the effectiveness, we measure pre/post-test), and other important factors such as prior knowledge or experimental condition/instructional strategies as well as interaction effects 

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5. The Role of STEM-Based Sustainability in Business and Management Curricula: Exploring Cognitive and Affective Outcomes in University Students

   https://doi.org/10.1177/10525629211056316  

   Craig, Christopher_A; Petrun_Sayers, Elizabeth_L; Gilbertz, Susan; Karam, Rita; Feng, Song (November 2021, Journal of Management Education)

   To address deficiencies in STEM and sustainability in business management and intra-university curricula, we developed and implemented an interdisciplinary STEM-based sustainability curriculum at a university in the Western United States. Six classes participated in curricular efforts including in-person and online sections of a business management course, in-person and online sections of a general elective STEM course, and a matched control course for each ( n = 214). We systematically designed, developed, and implemented curricular interventions—multi-week STEM-based business sustainability modules—using the case teaching method. A comprehensive evaluation with pre- and post-tests was conducted to assess student sustainability cognition and affect. Significant results emerged for sustainability cognition including the environmental, social, and economic dimensions of sustainability. Counterintuitively, student sustainability affect did not improve. However, sustainability cognition and affect were significantly correlated on the post-test for treatment students, an indication that cognitive and affective changes share the same directionality. Discussion, implications, limitations, and future research directions are provided. 

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