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Computer science (CS) teachers are still learning how to enact culturally-sustaining/revitalizing CS education for Indigenous students. In response, elementary teachers on the Wind River Reservation, a professional development provider, researchers, and the Wyoming Department of Education formed a researcher-practitioner collaborative to implement and study the implementation of culturally- sustaining/revitalizing CS lessons using design-based implementation research (DBIR) practices. Researchers collected data via interviews, reflection forms, and observations. Findings indicated that teachers used students’ funds of knowledge to support engagement and expanded lessons to reflect Indigenous priorities of language revitalization and Tribal sovereignty. Creating culturally-sustaining/revitalizing CS education was a collective activity, drawing on interdependence of teachers and students.
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Empowering Latine elementary school students with disabilities: computer programming through culturally sustaining curriculum
Background and Context: The study was conducted in a special education classroom in an elementary school with multilingual Latine students, utilizing a computer science curriculum focused on community-based environmental literacy. Objective: This study explores the experiences of diverse elementary students with disabilities in learning computer programming and identifies instructional strategies that enhance their learning within a culturally sustaining curriculum. Method: An exploratory case study approach was used to examine students’ learning experiences and teachers’ instructional strategies during curriculum implementation. Findings: Students who typically did not engage with peers collaborated effectively, and those with behavioral and performance difficulties exhibited heightened engagement. Instructional strategies included multisensory engagement and connecting environmental and computational concepts to real-life situations. Implications: The result underscore how a culturally sustaining computer science curriculum can empower diverse students, foster inclusivity, and leverage their strengths through effective teaching practices.
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- Award ID(s):
- 2317832
- PAR ID:
- 10539313
- Publisher / Repository:
- Taylor & Francis
- Date Published:
- Journal Name:
- Computer Science Education
- ISSN:
- 0899-3408
- Page Range / eLocation ID:
- 1 to 26
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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Three Northern Arapaho and Eastern Shoshone–serving districts formed a researcher–practitioner partnership with the Wyoming Department of Education, the American Institutes for Research®, and BootUp Professional Development to advance the computer science (CS) education of their elementary students in ways that strengthen their Indigenous identities and knowledges. In this paper, we share experiences from 2019 to 2022 with our curriculum development, professional development (PD), and classroom implementation. The researcher–practitioner partnership developed student and teacher materials to support elementary CS lessons aligned to Wyoming’s CS standards and “Indian Education for All” social studies standards. Indigenous community members served as experts to codesign culturally relevant resources. Teachers explored the curriculum resources during three 4-hour virtual and in-person PD sessions. The sessions were designed to position the teachers as designers of CS projects they eventually implemented in their classrooms. Projects completed by students included simulated interviews with Indigenous heroes and animations of students introducing themselves in their Native languages. Teachers described several positive effects of the Scratch lessons on students, including high engagement, increased confidence, and successful application of several CS concepts. The teachers also provided enthusiastic positive reviews of the ways the CS lessons allowed students to explore their Indigenous identities while preparing to productively use technology in their futures. The Wind River Elementary CS Collaborative is one model for how a researcher–practitioner partnership can utilize diverse forms of expertise, ways of knowing, and Indigenous language to engage in curriculum design, PD, and classroom implementation that supports culturally sustaining CS pedagogies in Indigenous communities.more » « less
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As computer science (CS) education becomes more prevalent in K-12 instruction, it is critical for educators, researchers, and curriculum developers to identify culturally responsive and pedagogically inclusive approaches that can increase participation, access, and feelings of belonging for students from historically marginalized communities. In response, we developed an equity-centered curricular framework and illustrative crosswalk that synchronizes three distinct pedagogical approaches: culturally responsive pedagogy (CRP), Universal Design for Learning (UDL), and project-based learning (PBL). We describe the framework’s theoretical underpinnings and explain how this framework informed the development of an integrated elementary science+CS curricular unit and provide examples of its implementation. Next, we describe the relationship between our framework, the integrated curricular unit, and educative materials designed to help teachers use the lessons and transform their practice. Finally, we highlight the framework’s potential for broader implementation in the quest to promote equitable CS instruction grounded in the experiences and perspectives of diverse student populations. The crosswalk is a graphical representation of the framework that communicates relationships amongst the elements in a digestible and practical way. This Equity-Centered Curricular Crosswalk addresses both lesson features and teacher practices, to underscore our belief that the responsibility of equity-based pedagogy should not be solely borne by teachers. As educators, researchers, and curriculum developers consider their interconnected roles and responsibilities in the enactment of CRP and UDL, the crosswalk provides an important link between equity-based instructional theories and the realities of classroom practices.more » « less
- Free Publicly Accessible Full Text
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Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.1080/08993408.2024.2396749
