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1. Responsibility and Accountability: Faculty Leaders, Ethics Frameworks, and Disciplinary Enculturation

   Pinkert, L. ; Beever, J. ; Kuebler, S. ; Taylor, L.E. ; Vazquez, E. ; Milanes, V. ( June 2023 , 2023 ASEE Annual Conference & Exposition)

   What responsibility do faculty leaders have to understand the ethics frameworks of their faculty colleagues? To what extent do leaders have capacity to enact that responsibility, given constraints on curricular space, expertise, basic communication skills, and the political climate? The landscape of disciplinary ethics frameworks, or the value content and structured experiences that shape professional development and disciplinary enculturation, reaches wide across the curriculum and deep into the discipline [1][2][3]. This landscape might include frameworks ranging from accrediting bodies and institutional compliance structures to state and national laws and departmental cultures. Coupled to the diversity of specializations within a single discipline, this landscape is richly complex. Yet, faculty leaders play important roles in shaping departmental and programmatic cultures, which are at least partially informed by the disciplinary value landscape. The objective of this paper is to build on previous work [4] to explore this problem of faculty leader responsibility by contrasting faculty leaders’ perspectives on disciplinary values with the values evidenced by their professional organizations. To evidence this contrast, we compare data from interviews with faculty leaders in departments of biology and computer science at a large metropolitan high research intensive HSI-serving university against data scraped from the websites of professional organizations those leaders reference as ethics frameworks. We analyze both sets of data using content analytics methods to examine qualitative and quantitative differences between them. This comparison is part of a larger institutional study looking at this problem across a wide diversity of disciplines [5]. We find an anticipated disparity between identification of the disciplinary frameworks and their content, opening space for discussion about the impact of national ethics frameworks at the local disciplinary level. But we also find an unanticipated diversity of types of ethics frameworks identified by faculty leaders, demonstrating the complexity of just how value frameworks inform disciplinary enculturation through leadership and training. Based on our findings, we articulate the relationship between responsibility and accountability [6] in the process of values-driven disciplinary enculturation. This work is relevant to ethics in that if ethics frameworks and the values they encode play a role in disciplinary enculturation, and there is a disconnect between faculty leaders perceptions of ethics frameworks and their disciplines explicit communications of their values, then the processes and practices of disciplinary enculturation could be more tightly connected to disciplinary values – resulting in more richly ethical professionals. *note: a version of this abstract is also submitted concurrently as a presentation to the Association of Practical and Professional Ethics (APPE), which does not publish abstracts or proceedings papers. [1] Tuana, Nancy. 2013. “Embedding Philosophers in the Practices of Science: Bringing Humanities to the Sciences.” Synthese 190(11): 1955-1973. [2] West, C. and Chur-Hansen, A. (2004). Ethical Enculturation: The Informal and Hidden Ethics Curricula at an Australian Medical School. Focus on Health Professional Education: a Multi-Disciplinary Journal 6(1): 85-99. [3] Nieusma, D. and Cieminski, M. (2018). Ethics Education as Enculturation: Student Learning of Personal, Social, and Professional Responsibility. 2018 ASEE Annual Conference and Exposition. Paper 23665. [4] Pinkert, L.A., Taylor, L., Beever, J., Kuebler, S.M., Klonoff, E. (2022). Disciplinary Leaders Perceptions of Ethics: An Interview-Based Study of Ethics Frameworks. 2022 ASEE Annual Conference and Exposition. https://peer.asee.org/41614. [5] National Science Foundation, “Award Abstract # 2024296 Institutional Transformation: Intersections of Moral Foundations and Ethics Frameworks in STEM Enculturation.” https://www.nsf.gov/awardsearch/showAward?AWD_ID=2024296, 2020. 

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2. Disciplinary Leaders Perceptions of Ethics: An Interview-Based Study of Ethics Frameworks Paper ID #37843

   Pinkert, LA ; Taylor, L. ; Beever, J. ; Kuebler, SM ; Klonoff, E. ( August 2022 , ASEE 2022)

   Understanding institutional leaders’ perspectives on ethics frameworks can help us better conceptualize where, how, and for whom ethics is made explicit across and within STEM related disciplines and, in turn, to better understand the ways developing professionals are enculturated toward responsibility within their disciplines. As part of an NSF-funded institutional transformation project, our research team conducted interviews with academic leaders about the frameworks of ethics in their home departments, programs, and fields. This paper reports on a series of eleven (11) interviews whose content describes the perspectives of disciplinary leaders from biology, chemistry, computer science, mathematics, mechanical and aerospace engineering, optics, philosophy, physics, psychology, STEM education, and writing and rhetoric. Contextualizing frameworks through the participants’ identification of experience, content, and audience allows us to better understand the landscape of ethics practices and procedures that act as the explicit training and education STEM learners receive in their disciplines. If ethics is an important educational focus for engineering, and the work of engineering relies on interdisciplinary connections, then understanding how ethics is taken up both within and across those collaborating disciplines is an important means of supporting ethics in engineering. 

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3. Students’ Computational Thinking in Two Mathematics Block-based Programming Environments: Research During Covid-19

   Hernández-Zavaleta, J. E. ; Becker, S. ; Clark, D. ; Brady, C. ; Major, N. ( July 2021 , International STEM in Education Conference (STEM 2021))

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   This paper analyzes the computational practices that four 7th and 8th grade students engaged in when learning geometric transformations in two different online block-based programming environments. The data sources include video footage of students’ interviews in Zoom where they shared their screens and cameras. The findings determined that students utilized in particular, decomposition and pattern recognition as important computational thinking practices required for learning in STEM disciplines. The paper also describes the changes made in how research method, data collection, and analysis configured opportunities to study computational thinking in remote locations due to the restrictions brought on by COVID-19. We identified three main challenges in the transition to online research: (a) recruiting research participants which included instituting necessary revisions to ethics protocols; (b) rethinking data gathering and analysis techniques along with interactions with participants in virtual settings; (c) dealing with glitches associated with technologies and virtual communication media in just-in-time ways. We conclude that even given the challenges with researching during COVID-19, there are still opportunities for rich, robust research in online settings. 

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4. Exploring Perceptions of Ethics and Social Responsibility Among Engineering Students and Professionals: Research Highlights and Implications for the Field

   Jesiek, B. ; Claussen, S. ; Kim, D. ; Stepback, L. ; Zoltowski, C. B. ( January 2022 , ASEE Annual Conference & Exposition)

   Ethics and social responsibility are often viewed as key areas of concern for many engineering educators and professional engineers. Thus, it is important to consider how students and professionals understand and navigate ethical issues, explore how such perceptions and abilities change over time, and investigate if certain types of interventions and experiences (e.g., coursework, training, service activities, etc.) impact individual participants. The breadth of engineering as a profession also raises questions about how ethics and social responsibility are understood across a wide range of disciplines, subfields, and industry sectors. Recognizing a need for more empirical research to address such questions, our research team carried out a five year, longitudinal, mixed-methods study to explore students’ perceptions of ethics and social responsibility. This study relied on repeated use of quantitative measures related to ethics, along with qualitative interviews to explore how students’ perceptions of these issues change across time, between institutions, and in response to participation in certain experiences. Additionally, we are now initiating a follow-on study where we will collect survey and interview data from our previous participants now that most of them are in full-time job roles and/or pursuing graduate degrees, as well as from a new group of early career engineers to enlarge our sample. In this paper, we first give an overview of key research findings from our ongoing research that have been published or are under review. The second major part of this paper delves into some specific theoretical and methodological questions and challenges associated with our research. This paper will likely be of interest to educators and researchers who are involved with developing and/or evaluating ethical capabilities among engineering students. 

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5. Examining Physicists' Ethical Reasoning: A New Methodology

   https://doi.org/10.1119/perc.2022.pr.Garcia  

   Garcia, Tyler ; Solis, Caitlin ; Linville, Caleb ; Bridges, Bill ; Jones, Wyatt ; Herington, Jonathan ; Tanona, Scott ; Laverty, James T. ( September 2022 , 2022 Physics Education Research Conference)

   Frank, Brian ; Jones, Dyan ; Ryan, Qing (Ed.)

   Researchers across all scientific disciplines routinely face ethical decisions in their work, from addressing conflicts of interest to deciding whether and how to make data available for reproducibility. To help strengthen their ethical reasoning skills, they are encouraged to take online training programs like the CITI program. Ethics training is insufficient for improving ethical behavior. Better understanding of how scientists make decisions and reason about ethics is needed. To develop that understanding, we need expanded, asset-based measures of ethical reasoning that can be applied to open-ended responses and discussions. As part of a year-long intervention on a group of fifteen scientists' value-based reasoning, we conducted pre/post interviews that included open-ended questions about ethical scenarios. For this paper, we explore an application of three theories of ethical and stakeholder reasoning to those answers, and determine that we can use them to examine quality, principles, and subjects of their reasoning in open responses. 

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