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1. Effectiveness of place-based, audio-narrative assignments in undergraduate introductory science

   Sirrakos, G; Fraser, B J; Kraal, E R; Epstein, A (January 2018, American Educational Research Association national conference)

   In this mixed-methods study, we evaluated the effectiveness of using a place-based, audio-narrative assignment in an undergraduate introductory science course by administering the Questionnaire Assessing Connections to Science (QuACS) to identify changes in 40 students’ perceptions of the learning environment and attitudes toward science between January 2017 (pretest) and May 2017 (posttest). Students’ responses to an open-ended question served as the qualitative source of data. Statistically significant improvements of over 0.4 standard deviations emerged for the two learning environment scales of Personal Relevance and Innovation. Further, students reported that they found the assignment provided a unique way to learn science and were helpful for better understanding and relaying complex scientific information. 

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2. Location Based Assignments in Early CS Courses Using BRIDGES Engages Students

   Mcquaigue Matthew; Strahler, Jay; Subramanian, Kalpathi; Saule, Erik; Payton, Jamie (January 2023, Journal of computing sciences in colleges)

   Freshmen and sophomore level courses in computer science are critical to long-term student development and success. At the same time, these courses, such as data structures and algorithms are usually challenging and require significant motivation to keep students engaged. In this work, we present through our BRIDGES system a set of location based assignments that can serve to reinforce core concepts and algorithms by placing them in more meaningful settings and applications, and demonstrate the relevance of computing in the early stages of a student's career. We performed a small pilot study using a subset of these assignments in a special topics course on algorithms, and conducted student surveys after each assignment. The surveys were unanimously positive, and the students enjoyed coding the algorithms as well as the datasets and visualizations associated with the assignments. 

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3. Introducing Innovation to First-Year STEM Students through an Intercession Course

   https://doi.org/10.18260/1-2-1153-38332  

   Schubert, Karl D.; Massey, Leslie B.; Gattis, Carol S. (November 2021, 2021 ASEE Midwest Section Conference Proceedings)

   Innovation training is considered critical for the future of our country, yet despite the important role, opportunities for students to develop innovation skills are limited. For STEM students, training in innovation principles and processes are frequently extra curricular pursuits, such as unpaid internships with start up organizations, shadowing innovation professionals, or obtaining an additional business degree or minor covering innovation principles. The National Science Foundation has funded the authors with a Science, Technology, Engineering and Mathematics (S STEM) grant to provide scholarships combined with research on best practices for recruitment, retention, and development of innovation skills for a diverse group of low income undergraduate students. Students in the program come from STEM disciplines in engineering and the physical sciences however, business students are also integrated into innovation courses although they are not funded by the S STEM grant Design, development, and implementation of the grant funded program’s first innovation related course, a 2 week fall intercession course will be presented Th is first year course is designed to provide the students with an introduction to innovation, develop and nurture the students’ innovation mindset and skills, and also help the students’ successful transition to college. The first-year two-week intercession course was designed and developed with two credit hours focusing on content related to innovation and one credit hour focusing on student success topics. The significant academic course components included: 1) interactive active-learning modules related to innovation processes, identifying where good ideas come from, working in teams, leadership, project management, and communication and presentation skills; 2) team innovation projects, one topic-assigned, applying skills learned in the content modules to develop innovation and team collaboration skills; and 3) integration of business students with STEM students which together gives viewpoints and experiences on product and customer needs. It is important to our nation’s health and safety to instill innovation in our students. In addition, today’s students are interested in innovation and in learning how to apply innovation techniques in their professional and personal lives. The course was designed for teams of four STEM students to one business student which provides a balanced input needed for this type of project taking into account the skillset of the technically oriented STEM students and the marketing-oriented business students, as well as personality types. This ensures that all voices are heard, and topical areas are addressed. There was no problem in getting faculty interest in developing the course, and the collaboration between retention professionals and faculty went well. After the course, an iterative improvement retrospective will be performed on the program as implemented to this point to inform improvements for next year’s cohort. This material is based upon work supported by the National Science Foundation under Grant No. 2030297. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation. 

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4. Collective Development of Large Scale Data Science Products via Modularized Assignments: An Experience Report

   https://doi.org/10.1145/3328778.3366961  

   Bhavya, Bhavya; Boughoula, Assma; Green, Aaron; Zhai, ChengXiang (February 2020, Proceedings of the 51st ACM Technical Symposium on Computer Science Education)

   Many universities are offering data science (DS) courses to fulfill the growing demands for skilled DS practitioners. Assignments and projects are essential parts of the DS curriculum as they enable students to gain hands-on experience in real-world DS tasks. However, most current assignments and projects are lacking in at least one of two ways: 1) they do not comprehensively teach all the steps involved in the complete workflow of DS projects; 2) students work on separate problems individually or in small teams, limiting the scale and impact of their solutions. To overcome these limitations, we envision novel synergistic modular assignments where a large number of students work collectively on all the tasks required to develop a large-scale DS product. The resulting product can be continuously improved with students' contributions every semester. We report our experience with developing and deploying such an assignment in an Information Retrieval course. Through the assignment, students collectively developed a search engine for finding expert faculty specializing in a given field. This shows the utility of such assignments both for teaching useful DS skills and driving innovation and research. We share useful lessons for other instructors to adopt similar assignments for their DS courses. 

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5. Streamlining a community college pathway for Mississippi geologists: Progress, potential—and persistence

   Clary, R.M.; Owen Nagel, A.; & Shows, E. (February 2023, Journal of the Mississippi Academy of Sciences)

   Tucci, M. (Ed.)

   Since 2019, online introductory physical and historical geology lecture/laboratory courses have been available to all Mississippi community college students through the Mississippi Virtual Community College consortium. Funded through an NSF IUSE GEOPAths program, the Geo-SPARCC courses begin each unit with Mississippi examples for student geographic relevance. Not only do the GLY courses fulfill a physical science requirement for students, but they also reintroduce geoscience content that most Mississippi students have not been exposed to since 8th grade. Since many geology majors accidentally learn about geoscience majors and career opportunities, an introduction to geological content at the community college level may help to recruit students to the discipline sooner. An early challenge to the Geo-SPARCC project was that the GLY courses were not widely known beyond their host institution; enrolled students further noted that their advisors enrolled them or told them to take specific courses. Additionally, early GLY student enrollment did not reflect the demographics of the Mississippi community college population, and the pandemic resulted in the forced cancellation of field excursions for 4 semesters/2 years. As the Geo-SPARCC project concludes, progress has been made: 1) Through outreach, community college advisors have been made aware of the online geology course options; 2) GLY student demographics now reflect the Mississippi community college population; and 3) Field excursion opportunities are again available for community college students. Persistence is needed by professional geologists and 4-year institutions to maintain awareness of geology course options at the community college level, and geoscience career opportunities for those who choose to pursue a geology or environmental science degree. 

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