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1. Practicing physicists’ knowledge about disability: Development of the Disability and Physics Careers Survey (DPCS)

   https://doi.org/10.1119/perc.2020.pr.Scanlon  

   Scanlon, Erin M.; Oleynik, Dan P.; Chini, Jacquelyn J. (September 2020, Physics Education Research Conference 2020, Virtual Conference, 2020)

   null (Ed.)

   Previous research indicated that physics instructors receive little training about supporting people with disabilities, physics curricular materials are not designed to support students with disabilities, and STEM professionals hold more negative views about people with disabilities than their peers in other academic disciplines. We argue that if physics mentors do not know about disability and physics careers, then they will be less likely to appropriately mentor students with disabilities. The purpose of this paper is to introduce, discuss the development of, and present pilot study findings for the Disability and Physics Careers Survey (DPCS), which measures practicing physicists' knowledge about disability and beliefs about the viability of physics career for people with a range of abilities. We collected pilot data at 9 meetings and through a physics listserv; overall 208 participants completed the DPCS. We found that practicing physicists have knowledge about hearing, visual, and emotional/mental health impairments (but not other impairments) and believe the viability of physics careers varies by impairment type. 

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2. Practicing Physicist's Perception of the Viability of Physics Teacher and Professor Careers for Individuals with Disabilities

   https://doi.org/10.1119/perc.2024.pr.Oleynik  

   Oleynik, Daniel; Scanlon, Erin M; Doty, Constance M; Chini, Jacquelyn J (September 2024, Physics Education Research Conference)

   The perceptions that physics mentors have about disability in physics influences how they interact with their mentees, and negative biases against disability can influence students to feel discouraged within the physics community. We administered the Disability and Physics Career Survey (DPCS) through physics-specific listservs and at physics-specific conferences to measure practicing physicists' knowledge about disability and their beliefs about the viability of physics careers for individuals with a variety of disability diagnoses. This study uses Cochran's Q and McNemar's R to compare how practicing physicists' perceptions of the viability for the careers of teacher and professor depend on the impairment that an individual is diagnosed with. We find that practicing physicists view these careers as non-viable for those with cognitive impairments and hold other unconscious biases that we outline and interrogate. 

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3. Physics instructors’ views about supporting learner variation: Modifying the Inclusive Teaching Strategies Inventory

   https://doi.org/10.1119/perc.2019.pr.Scanlon  

   Scanlon, Erin M.; Chini, Jacquelyn J. (January 2019, 2019 Physics Education Research Conference)

   Every person has abilities across a multidimensional spectrum; however, previous research has indicated that postsecondary faculty are unaware of how to support students with a broad range of abilities in their courses and receive little training about inclusive teaching strategies. On average, STEM faculty have demonstrated more negative views toward students with disabilities than instructors from other disciplines. As such, we want to better understand physics instructors' beliefs about people with disabilities and their inclusive teaching practices. The Inclusive Teaching Strategies Inventory (ITSI) was developed to measure postsecondary instructors' beliefs and practices related to disability and supporting people with disabilities across disciplines. Through a pilot administration of this survey, we found that STEM faculty experienced difficulties in responding to the survey. Thus, we modified the ITSI for use with STEM faculty. We present our modification process, describe specific modifications made to the ITSI, and discuss preliminary interview and survey data. 

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4. Identifying Academic Ableism: Case Study of a UDL-Learning Community Participant

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

   Coffie, Camille A.; James, Westley; Scanlon, Erin M.; Chini, Jacquelyn J. (September 2022, Physics Education Research Conference)

   To improve accessibility and inclusion in postsecondary STEM education, we propose implementing Universal Design for Learning (UDL) based practices to meet the needs of a variety of learners. The UDL is a design framework aimed at improving and optimizing teaching and learning for all people, regardless of their disability status. As part of a larger professional development project, interviews were conducted with members of a faculty learning community to discuss their instructional practices and to offer feedback regarding opportunities to remove barriers to access and participation. In this paper, we focus on an interview with a physics instructor and examine their beliefs about students with disabilities as evidenced by the disability-specific language used in the interview. This prompted a new perspective on professional development regarding accommodating students with disabilities that focuses on confronting ablest beliefs as a crucial component in promoting inclusion in STEM education. 

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5. The Epic and the Tragedy: Narratives of a Disabled Physics Student

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

   Oleynik, Dan P.; Scanlon, Erin M.; Chini, Jacquelyn J. (September 2022, Physics Education Research Conference)

   In this paper, we present a case study with a disabled physics student to draw attention to his experiences in the physics community, and the barriers and supports that he experienced as he advanced through his physics career. Using a methodology of narrative analysis, we identify themes and genres within the stories told by the participant. Narratives are often created to explain the unexpected and to solve a problem. In the physics community, disabled students find their "differences" (i.e., disability/impairments) are often positioned as unexpected and a problem to be solved. We use narrative analysis to humanize disabled physics students and to highlight their lived experiences of progressing through the physics community over their perceived deviation from the physics "norm." From this, we create resources for physics mentors to increase their knowledge of disabled physics students' experiences and how to support accessibility and inclusion in the physics community. 

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