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1. An Analysis of an Instructional Development Workshop to Promote the Adoption of Active Learning in STEM: Potential Implications for Faculty Developers

   Carroll, L. J. (November 2022, International Journal of Engineering Education)

   Wedeveloped an instructional development workshop for science, technology, engineering, and math (STEM) instructors in higher education to promote their adoption of active learning. Our workshop design was based on a proposed framework for motivating adult learners consisting of five elements: (1) expertise of presenters, (2) relevance of content, (3) choice in application, (4) praxis, and (5) group work. We assessed the participating instructors’ attitudes (i.e., motivation to use active learning and intentions and motivation to use strategies to reduce student resistance to active learning) immediately before and after the workshop and again five to six months later. We also assessed participants’ satisfaction with the workshop. Analyses of our data provided evidence of a change in participants’ motivation to use active learning and both their intentions and motivation to use strategies to reduce student resistance to active learning following the workshop. Our quantitative findings and thematic analysis of survey results support the use of the proposed framework for designing instructional development workshops for STEM faculty. The results also show short-term instructional development workshops can be effective and suggest caution in extrapolating immediate post-workshop assessment to the longer-term. 

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2. Project adelante: An anti-deficit professional development program for university mathematics instructors

   Adiredja, Aditya; Civil, Marta; Jarnutowski, Becca (October 2024, RUME Proceedings)

   Cook, S; Katz, B; Moore-Russo, D (Ed.)

   In this report, we share the design of a year-long professional development program for university math instructors that we developed and refined as the Anti-deficit Learning and Teaching Project (Adelante). The program is a community learning project wherein minoritized students, STEM peer mentors, and math instructors (graduate students and instructional faculty) build relationships as they share their knowledge and experiences with race, gender, and mathematics. Culturally relevant pedagogy (Ladson-Billing, 1995) frames the goals of the community learning in terms of deep mathematical knowledge, cultural knowledge, and sociopolitical consciousness. The program activities are inspired by the Funds of Knowledge for Teaching project (Moll et al., 1992) wherein teachers are offered opportunities to build meaningful relationships with students and their communities. An anti-deficit perspective (Adiredja et al., 2020) guides the learning experience for all participants. Not only are minoritized students assumed to have cultural and intellectual assets for learning, but the project also aims to dismantle deficit master narratives (Solórzano & Yosso, 2002) about these students and their capacity to learn. Instructors worked on explicitly challenging deficit narratives about their students as they engaged in the program’s activities. The project also takes an anti-deficit approach to instructor development, focusing on their individual growth and agency, joy in teaching, and mental health. We also position ourselves as learners to the experience and wisdom of the staff and students at the university cultural centers. The core activities for the PD engage teachers to: (a) participate in five PD meetings on anti- deficit teaching and Inquiry Based Learning (IBL) teaching method; (b) lead a five-day math summer bridge workshop in Pre-Calculus, Calculus I, II, Vector Calculus, or Linear Algebra immediately following the meetings; (c) participate in critical conversations about race and gender in STEM with students at the cultural centers; (d) conduct a semi-structure interview with one of their students from the summer workshop about their STEM experience; and (e) participate in group reflection meetings debriefing their experience in the activities. Preliminary analysis of two of the three cohorts of participants found that most instructors developed a more humanizing approach to their teaching and their students (Gutiérrez, 2018). IBL helped instructors to explicitly challenge deficit narratives about minoritized students in the classroom, wherein most observed their students engaging in deep mathematical reasoning. Interviewing one of their students also shifted deficit narratives that developed in the classroom for some instructors. The workshop served as a space to try out previously learned teaching ideas (student centered teaching) without constraints from curriculum and assessments. Doing so reinvigorated many instructors’ passion for teaching, especially those who are more experienced. 

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3. Drawing on three fields of education research to frame the development of digital games for inquiry-oriented linear algebra.

   Zandieh, M.; Plaxco, D.; Williams-Pierce, C.; Amresh, A. (January 2018, Proceedings of the 21st Annual Conference on Research in Undergraduate Mathematics Education)

   Demands in undergraduate education are shifting to reach larger student populations - especially learners beyond the brick-and-mortar classroom - which has led to more pressing demands to incorporate technologies that afford such learners access to high-quality, research- based, digital instructional materials. In this article, we explore three theoretical perspectives that inform the development of such instructional materials. In our team’s efforts to develop a game-based learning applet for an existing inquiry-oriented curriculum, we have sought to theoretically frame our approach so that we can draw on the corpus of researcher knowledge from multiple disciplines. Accordingly, we will discuss three bodies of literature – realistic mathematics education’s [RME’s] approach to curriculum development, inquiry-oriented instruction and inquiry-based learning [IO/IBL], and game-based learning [GBL] - and draw on parallels across the three in order to form a coherent approach to developing digital games that draw on expertise in each field. 

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4. Dose-Response in Context: A Backward Design, Inquiry Activity Workshop for College Transfer Students

   https://doi.org/10.58021/S5KW2J  

   Santiago, Nicholas A.; Glasenapp, Matthew R.; Howard, Shanna L. (January 2022, Institute for Scientist & Engineer Educators (ISEE))

   Seagroves, Scott; Barnes, Austin; Metevier, Anne; Porter, Jason; Hunter, Lisa (Ed.)

   The Workshops for Engineering and Science Transfers (WEST) program was designed to foster critical-thinking skills and develop a supportive community for new Science, Technology, Engineering, and Mathematics (STEM) community college transfer students at the University of California, Santa Cruz, with the ultimate goal of improving student retention and persistence in STEM. All learners in the program participate in inquiry activities devised to incorporate elements of backward design and equity and inclusion. Here we discuss our 2019 Toxicology WEST workshop activity, an in-depth exploration of dose-response relationships created to provide an overview of the field of toxicology and clarify common misconceptions. To reflect authentic research design, we had learners assume the roles of Environmental Protection Agency (EPA) scientists tasked with investigating the effects of environmental toxicants on the model organisms Caenorhabditis elegans and Daphnia magna. Learners were asked to design and conduct experiments to explore the dose-response relationship and report their results in a culminating poster symposium. We assessed learning by evaluating their performance on two tasks: an individual written response and a group poster presentation. Our activity gave learners an opportunity to practice experimental design, data analysis, and science communication before beginning UCSC STEM courses. Practicing these skills early is essential for student retention in STEM, as many students find the experimental process challenging. Here, we describe details of our inquiry workshop activity, reflect on the effectiveness of the activity and our assessment of student learning, and offer suggestions for facilitation and adaptation of our activity to additional educational contexts. 

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5. Investigating the linkage between professional development and mathematics instructors’ use of teaching practices using the theory of planned behavior

   https://doi.org/10.1371/journal.pone.0267097  

   Archie, Tim; Hayward, Charles N.; Yoshinobu, Stan; Laursen, Sandra L. (April 2022, PLOS ONE)

   Zou, Di (Ed.)

   Professional development has been identified as an effective way to increase college STEM instructors’ use of research-based instructional strategies (RBIS) known to benefit student learning and persistence in STEM. Yet only a few studies relate professional development experiences to later teaching behaviors of higher education instructors. This study of 361 undergraduate mathematics instructors, all of whom participated in multi-day, discipline-based workshops on teaching held in 2010–2019, examined the relationship between such participation and later use of RBIS. We found that instructors’ RBIS attitudes, knowledge, and skills strengthened after participating in professional development, and their self-reported use of RBIS became more frequent in the first year after the workshop. Applying the Theory of Planned Behavior as a conceptual framework, we used a structural equation model to test whether this theory could explain the roles of workshop participation and other personal, professional and contextual factors in fostering RBIS use. Findings indicated that, along with workshop participation, prior RBIS experience, class size, and course coordination affected RBIS use. That is, both targeted professional development and elements of the local context for implementation were important in supporting instructors’ uptake of RBIS—but, remarkably, both immediate and longer-term outcomes of professional development did not depend on other individual or institutional characteristics. In this study, the large sample size, longitudinal measurement approach, and consistency of the form and quality of professional development make it possible to distinguish the importance of multiple possible influences on instructors’ uptake of RBIS. We discuss implications for professional development and for institutional structures that support instructors as they apply what they learned, and we offer suggestions for the use of theory in future research on this topic. 

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