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1. Preparing special education preservice teachers to teach computational thinking and computer science in mathematics.

   https://doi.org/10.1177/088846421992376376  

   Bouck, E.C. ( April 2021 , Teacher education and special education)

   null (Ed.)

   Increasingly in K–12 schools, students are gaining access to computational thinking (CT) and computer science (CS). This access, however, is not always extended to students with disabilities. One way to increase CT and CS (CT/CS) exposure for students with disabilities is through preparing special education teachers to do so. In this study, researchers explore exposing special education preservice teachers to the ideas of CT/CS in the context of a mathematics methods course for students with disabilities or those at risk of disability. Through analyzing lesson plans and reflections from 31 preservice special education teachers, the researchers learned that overall emerging promise exists with regard to the limited exposure of preservice special education teachers to CT/CS in mathematics. Specifically, preservice teachers demonstrated the ability to include CT/CS in math lesson plans and showed understanding of how CT/CS might enhance instruction with students with disabilities via reflections on these lessons. The researchers, however, also found a need for increased experiences and opportunities for preservice special education teachers with CT/CS to more positively impact access for students with disabilities. 

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2. Preparing Special Education Preservice Teachers to Teach Computational Thinking and Computer Science in Mathematics

   https://doi.org/10.1177/0888406421992376  

   Bouck, Emily_C ; Sands, Phil ; Long, Holly ; Yadav, Aman ( February 2021 , Teacher Education and Special Education: The Journal of the Teacher Education Division of the Council for Exceptional Children)

   Increasingly in K–12 schools, students are gaining access to computational thinking (CT) and computer science (CS). This access, however, is not always extended to students with disabilities. One way to increase CT and CS (CT/CS) exposure for students with disabilities is through preparing special education teachers to do so. In this study, researchers explore exposing special education preservice teachers to the ideas of CT/CS in the context of a mathematics methods course for students with disabilities or those at risk of disability. Through analyzing lesson plans and reflections from 31 preservice special education teachers, the researchers learned that overall emerging promise exists with regard to the limited exposure of preservice special education teachers to CT/CS in mathematics. Specifically, preservice teachers demonstrated the ability to include CT/CS in math lesson plans and showed understanding of how CT/CS might enhance instruction with students with disabilities via reflections on these lessons. The researchers, however, also found a need for increased experiences and opportunities for preservice special education teachers with CT/CS to more positively impact access for students with disabilities.

    

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3. Developing a Three-Dimensional View of Science Teaching: A Tool to Support Preservice Teacher Discourse

   https://doi.org/https://doi.org/10.1080/1046560X.2018.1537059  

   Sinapuelas, M. L. ( April 2019 , Journal of college science teaching)

   The Next Generation Science Standards (NGSS) and the Framework for K-12 Science Education (NRC, 2012) on which they are based, describe a new vision for science education that includes having students learn science in a way that more closely aligns to how scientists and engineers work and think. Accomplishing this goal will require teacher educators to make important shifts in the ways they prepare future science teachers (NRC, 2012). Many science teaching methods courses are being reformed to better support future science teachers to meet the ambitious goals of the NGSS. Specifically, these reform efforts require evidence-based and standards-aligned tools to help preservice teachers align instruction with the new science standards. This study utilized the methodology of Improvement Science “Plan, Do Study, Act” cycles in order to design a Three-Dimensional Mapping Tool (3D Map) as a visual scaffold for use in science teaching methods courses to support preservice teachers in unpacking the components of NGSS and to promote discourse related to the three-dimensionality of planning instruction. The 3D Map provides a visualization of key elements of the NGSS, while being flexible enough to accommodate established teaching strategies. 

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4. Self-Efficacy Study in Computing Among College Freshmen

   Ghimire, Amrita ; Lee, S. ; Lineberry, L. ( July 2020 , ASEE Annual Conference proceedings)

   Computer Science (CS) is not introduced equitably across K-12 schools, yet it is increasingly a necessary skill regardless of vocational pathway. Co-curricular activities such as summer camps have become a popular way to introduce CS to K-12 students. Researchers at our institution, through partnerships with other educational institutions and practitioners, developed a transdisciplinary approach of teaching CS in K-12 informal learning environments. Building on positive results in the K-12 informal learning environment, researchers are exploring the applicability of the transdisciplinary modules in formal instruction for early college learners in CS0 and CS1 courses. This paper explores self-efficacy data collected from multiple CS0 and CS1 courses. Learners include freshmen in computing majors and in non-computing majors. We compare their self efficacy growth in computing across race and gender, considering their formal or informal CS education experiences prior to entering college. This work is a part of a larger effort to redesign CS0 and CS1 courses to introduce more complex concepts and important design concepts such as parallel and distributed computing earlier in the curriculum. The authors’ longer-term goal is to investigate active learning strategies that will introduce higher level computer science topics early in the curriculum to enable students to recognize content applicability earlier in their college pathway. 

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5. Expanding Preservice Teachers’ Conceptions of Science Teaching and Learning

   https://doi.org/10.22318/icls2023.103082  

   Metcalf, Allison ; Jaber, Lama ; Davidson, Shannon ( October 2023 , Proceedings of the 17th International Conference of the Learning Sciences - ICLS 2023)

   To support students’ sense of belonging in science classrooms, K-12 teachers should recognize and appreciate learners’ diverse experiential, cultural, and linguistic repertoires as valuable resources for sensemaking in science. This approach to teaching necessarily entails expanding what has been traditionally considered as ontologically and epistemologically valid and valued in disciplinary learning spaces so that students’ diverse ways of thinking, talking, and feeling are honored and built upon, rather than dismissed. This study explores the emergence of such expansiveness in the context of STEM preservice teacher education. Using preservice teachers (PSTs)’ written reflections and in-class discussions, we identified different ways in which such expansiveness manifested in PSTs’ discourse. We end with some implications for supporting teachers’ expanding conceptions of science teaching and learning. 

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