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1. Graduate Students’ Development of Teaching Skills and Identity

   https://doi.org/10.18260/1-2--47512  

   Thapa_Magar, Nishchal; Nelson, Jill; Rosenberg, Jessica; Brizzolara, Marco (June 2024, ASEE Conferences)
2. Students' use of disability accommodations in emergency remote teaching

   https://doi.org/10.1119/perc.2021.pr.Scanlon  

   Scanlon, Erin M.; Vignal, Michael; Wilcox, Bethany R.; Chini, Jacquelyn J. (January 2021, 2021 PERC Proceedings)

   Bennet, Michael; Frank, Brian; Vieyra, Rebecca (Ed.)

   Disability is an often-overlooked aspect of diversity. Recent research has indicated that there are barriers to access and participation for disabled students inherent in the design of physics courses. To help counteract these barriers, universities are required to provide reasonable accommodations for disabled students. However, not all students use the accommodations they have access to because of social factors (e.g., disability stigma), and others do not have access to the professional diagnosis often required to access accommodations. The purpose of this study was to explore the experiences of students who identify with a disability/impairment who were taking an emergency remote teaching (ERT) physics course in Fall 2020 to inform policies about providing access to students in future remote and face-to-face courses. In this paper, we present the prevalence and types of impairments disabled students in physics courses reported, their reported accommodation usage, and ethical considerations of this work. Overall, we find that disabled students represent a sizeable group in physics courses, and there are positive and negative reasons students did not use or request accommodations. 

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3. Teaching Coding to Elementary Students – the Use of Col- lective Argumentation

   Foutz, Tim (June 2019, ASEE annual conference & exposition)

   This project, titled Collective Argumentation Learning and Coding (CALC), aims to use the principles of collective argumentation to teach coding through appropriate reasoning. Creating and critiquing arguments as part of a coding activity promotes a more structured approach rather than the trial-and-error coding activity commonly used by novice programmers. Teaching coding via collective argumentation allows teachers to use methods that are already in use in mathematics and science instruction to teach coding, thus increasing the probability that it will be taught in conjunction with mathematics and science as regular parts of classroom instruction rather than relegated to an after-school or enrichment activity for only some students. Specific objectives of the CALC project are to - increase the attention that coding is given in the elementary classrooms taught by our participating teachers, and -direct students away from informal approaches (e.g.trial-and-error) to develop code to the more formal, structured approach recommended for novice programmers. Our research activities investigate teachers’ understanding of argumentation using the CALC concept and how the implementation of the CALC concept helps students (grades 3-5) learn how to code. The CALC approach supports the learning of coding by providing teachers with a formal, structured means to a) trace the growth of students’ understanding, and misunderstanding, of ideas (i.e., coding) as they form, b) facilitate students’ use of evidence, not opinion, to select a solution among multiple solutions (i.e., different sequencing of the code), and c) help each student realize she/he, as well as others, is a legitimate participant (i.e., a programmer) in the activity of developing, assessing and implementing an idea (e.g., coding of a robot). This paper/presentation discussed the first phase of an on-going investigation and focuses on a prototype graduate-level course designed for and taught to practicing elementary school teachers. The discussion outlines how the course impacted the participating teachers content knowledge of coding and their belief that coding can be made an integral part of everyday lessons, not as an add-on activity. 

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4. Transfer-bound community college students’ biology identity and perception of teaching

   https://doi.org/10.1128/jmbe.00116-23  

   Teshera-Levye, Jennifer; Atchison, Tammy; Callis-Duehl, Kristine; Gould, Thomas; Lichti, Deborah; Scemama, Jean-Luc; Stiller, John; Vance-Chalcraft, Heather D (December 2023, Journal of Microbiology & Biology Education)

   Parks, Samantha T (Ed.)

   Community colleges are frequently an affordable, accessible entrance to a Science, Technology, Engineering, and Mathematics (STEM) education and career, but the transition from a 2-year program to a 4-year institution can be tumultuous. In this mixed-methods study, we explore the experiences of transfer and prospective transfer students. Through surveys and interviews, we identify the challenges faced by and the supports desired by biology transfer students. We describe how community college students perceive their introductory biology courses, and we compare the biology identity and self-efficacy of these students to peers at a 4-year institution. Students expressed uncertainty about what to expect from the transfer experience, and they benefitted from interventions that made the university experience more concrete or clarified their expectations. We found that community college students are just as interested in biology as peers at a 4-year university, but they are significantly less likely to believe that others recognize them as “biology people” and report less self-efficacy regarding biology courses. Students felt particularly well-prepared for transfer after community college biology courses they described as “rigorous” and “demanding,” especially because students expressed that the community college environment helped support them through the challenges of higher education. 

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5. Toward In-Context Teaching: Adapting Examples to Students’ Misconceptions

   Ross, Alexis; Andreas, Jacob (August 2024, Proceedings of the Annual Meeting of the Association for Computational Linguistics)