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.
- Award ID(s):
- 1936440
- PAR ID:
- 10286887
- Date Published:
- Journal Name:
- Teacher education and special education
- ISSN:
- 0888-4064
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
More Like this
-
-
While computational thinking has gained popularity in K-12 schools to increase access to computing tools and practices, there is still limited understanding on how to broaden participation of students with disabilities in computational thinking (CT). One approach to increasing access to computing to students with disabilities is to educate future special education teachers to bring CT into their instruction. This study examined the influence of integrating CT into assistive technology course for special education pre-service teachers. Our results suggest that integrating CT into special educa- tion teacher preparation coursework can have a positive impact on how pre-service teachers see the value of bringing computational practices to students with disabilities.more » « less
-
Posing questions is a direct way for teachers to push students to verbalize justifications and make connections among ideas—a crucial component of giving students with learning disabilities access to high levels of mathematical reasoning—but this skill is difficult to learn. We recruited four pre-service special education teachers to provide 1-1 algebra tutoring to students with learning disabilities while receiving instruction related to posing mathematics questions and supporting students’ reasoning. The pre-service teachers increased their frequency of questions overall and of questions that probed students’ thinking or explored mathematical relationships. Students gave correct and complete responses to these more complex questions approximately half of the time; however, pre-service teachers most often reduced the complexity of their questions when students gave incomplete responses. The findings of this study illustrate the potential for pre-service special education teachers to develop questioning routines that engage students with learning disabilities in mathematical reasoning while scaffolding their progress toward new understanding.
-
null (Ed.)A key strategy for bringing computer science (CS) education to all students is the integration of computational thinking (CT) into core curriculum in elementary school. But teachers want to know how they can do this on top of their existing priorities. In this paper, we describe how our research-practice partnership is working to motivate, prepare, and support an elementary school to integrate equitable and inclusive computer science into core curriculum. Data were collected from teachers at a K-5 school where 65% of students are Hispanic or Latinx, 46% are English Learners, and 65% are eligible for free or reduced lunch. Data included semi-structured interviews, educators’ written reflections, and observations of classroom implementation and professional development. The findings show how the school is building buy-in and capacity among teachers by using a coaching cycle led by a Teacher on Special Assignment. The cycle of preparation, implementation, and reflection demystifies CS by helping teachers design, test, and revise coherent lesson sequences that integrate CT into their lessons. Contrasting case studies are used to illustrate what teachers learned from the cycle, including the teachers’ reasons for the integration, adaptations they made to promote equity, what the teachers noticed about their students engaging in CT, and their next steps. We discuss the strengths and the limitations of this approach to bringing CS for All.more » « less
-
Driven by the need for students to be prepared for a world driven by computation, a number of recent educational reforms in science and mathematics have called for computational thinking concepts to be integrated into these content areas. However, in order for computational thinking (CT) to permeate K-12 education, we need to educate teachers about what CT ideas are and how they relate to what happens in their classroom on a day-to-day basis. This paper presents a toolkit to scaffold elementary teachers’ understanding of computational thinking ideas and how to integrate them into their lesson plans.more » « less