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Abstract Despite a growing movement towards expanding computer science education in PreK‐12, gaps in computing opportunities along lines of race, ethnicity, class, and gender have widened. Emergent theories and practices related to culturally responsive computing show promise in addressing this gap; however, little is known about engaging Black, Latinx, and Indigenous preschoolers in computer science. In this paper, we utilized qualitative content analyses to explore how an early childhood computer science curriculum created opportunities for young Black and Latinx preschoolers to develop computational thinking skills while engaging in culturally responsive computing. Overwhelmingly, we found the curriculum, co‐developed with educators and caregivers, emphasized unplugged tools and coding activities to support computational thinking. These unplugged opportunities positioned children as innovators with technology and technosocial change agents, in developmentally‐appropriate, play‐based ways. Findings demonstrate a need to emphasize the value of unplugged tools and coding activities in order to support computational thinking and align the goals of culturally responsive computing with the unique needs of young children. We discuss implications for a theory of culturally responsive computing specifically for early childhood education. 

Abstract Computational thinking (CT) is an important twenty-first century skill that begins developing early. Recent interest in incorporating early CT experiences in early childhood education (i.e., preschool) has increased. In fact, the early years mark an important time during which initial competencies are acquired, interest and motivation begins to form, and in which children may develop a sense of belonging in STEM fields. As a result, providing children with access to robotics and computer science experiences to support CT that are also developmentally appropriate and culturally relevant is key. This paper uses the “powerful ideas” of computer science, seven developmentally appropriate CT concepts that children can learn, as a framework and explores the experiences of two (composite) teachers who participated in and co-developed a culturally relevant robotics program and the processes they undertake to support children’s CT development and learning. This paper considers practices that support the seven key powerful ideals while leveraging existing instructional routines and contexts that are already occurring in most classrooms, such as centers, small group activities, classroom environments, and read-alouds. Of note, this paper prioritizes approaches that acknowledge, center, and feature the ethnic, cultural, and linguistic backgrounds of young children and their families. Identifying affordable and accessible practices, this paper provides educators with tangible, integrated, and authentic practices to support children’s computational thinking, STEM learning, and sense of belonging. 

Theory and practice related to computing education with racially/ethnically and linguistically diverse groups of preschoolers remain in nascent stages. Accordingly, early childhood educators both require substantial support when integrating culturally responsive computing into curriculum and instruction and offer valuable perspectives on emerging practices. The purpose of this research study is to explore how educator voice-directed efforts support the implementation of a culturally relevant preschool robotics program through multi-year professional development. Through qualitative analyses, we examined how educator voice, conceptualized as perspectives and participation, guided the direction of professional learning situated within a larger research-practice partnership using design-based research (DBR) methodology. By comparing voice across these sessions, we were able to identify what roles educators assumed within the partnership and how those roles shifted over time. Further, we are able to identify the structural and systemic factors that may have affected their participation and implementation. Findings show a contrast in roles across the different stages of the partnership, suggesting implications for embedding professional learning within broader partnership work as a way to cultivate educator leadership and to realize culturally responsive computing education in sustainable ways. 

Research practice partnerships (RPPs) that include parents and teachers as cocreators of educational programs provide opportunities to build equitable partnerships yet require university partners to intentionally develop spaces for coconstruction and synergistic interactions. RPPs built within a third space can foster engagement of all partners in the coconstruction of knowledge and practices while assuming roles and navigating partnership work through informal and formal communication. We define a third space as a hybrid, intangible space where inter- and intracultural pedagogies are constructed and shared identity is created from historical and cultural contexts of all partners. This study explored how university partners centered teacher and parent voices in the codesign and piloting phase of a culturally relevant preschool robotics program and facilitated codevelopment within a third space. Through in-depth qualitative coding, we analyzed 6 months of early partnership exchanges to identify how we, as university partners, facilitated discourse and what roles parents and teachers assumed within our third space. Results found that university partners frequently invited participation among partners and used revoicing strategies, and parents and teachers adopted roles as educators and advisors to the program design and implementation. Implications for RPPs include considering how both facilitator-discourse moves and collaborative spaces in which parents and teachers are central to partnership conversations and decisions contribute to successful outcomes. 

A growing movement towards expanding computer science education in K-12 has broadened gaps in computing opportunities along lines of race, ethnicity, class, and gender. Emergent theories and practices related to culturally responsive computing show promise in addressing this gap; however, little is known about engaging culturally and linguistically diverse preschoolers in computer science. The current study utilized qualitative content analysis to explore how an extant theory of Culturally Responsive Computing aligns with an early childhood culturally relevant robotics curriculum. Findings suggest that while the assumptions of culturally responsive computing were evident throughout the curriculum, there are several key considerations when extending the theory to early childhood contexts. Overarching themes included (1) emphasizing the value of non-digital tools and activities and (2) aligning the goals of culturally responsive computing with children’s current level of social development. 

The specific mechanisms by which teachers and parents can provide culturally relevant opportunities for computational thinking for racially/ethnically and linguistically diverse groups of preschoolers remain unknown. Accordingly, the purpose of this research is to examine how PreK parent and teacher voice directed efforts to realize a culturally relevant computing program. We drew data sources from a subsample of design-based research meetings in which partners collaborated to co-develop the first iteration of the program. Using qualitative analysis, we examined how parent voice and teacher voice, conceptualized as perspectives and participation, influenced theories of culturally responsive computing and computational thinking in early childhood education and the translation of theory into practice in classroom and home settings. Findings showed that connecting powerful ideas from computational thinking, namely algorithms and problem solving (e.g., debugging), to familiar activities and experiences served as a powerful entry point. Yet, differences arose in how teachers and parents conceptualized culturally relevant computing and made connections to familiar routines. We discuss what can be learned from parent voice in regards to bolstering children's self-expression, access to increasingly complex computational thinking tasks, and opportunities for learning cultural and community values through computing. 

Through school-university partnerships that situate learning within culturally relevant educational experiences, faculty, preservice teachers, and school-based educators are able to co-construct and share scientific knowledge. This knowledge consists of pedagogical content knowledge and funds of knowledge that include both knowledge and skills developed in cultural context that have evolved historically. In early childhood education, culturally relevant Science, Technology, Engineering, Arts, and Mathematics (STEAM) learning experiences are particularly important for young children's cognitive and social emotional development. This paper describes how intentional co-planning and collaboration to celebrate the US Read across America Day provided over 100 preschool children in eight classrooms with access to STEAM lessons virtually led by university preservice teachers in partnership with educators in the school. These activities engaged children in exploring art, computer science, physical science, engineering, and mathematics within the context of a culturally relevant version of the fairy tale Goldilocks and the Three Bears. Lessons implemented as part of school-university partnerships support Black and Latinx children's development of a sense of belonging in STEAM. Further, these experiences enhance teacher candidates' abilities to engage in culturally responsive STEAM teaching while receiving ongoing guidance and education from university faculty and school-based educators. Teacher education programs within higher education institutions should embrace school- university partnerships as contexts for the development of shared scientific knowledge and discourse since the benefits are twofold. First, children and teachers gain access to, and engage with, innovative STEAM experiences. Second, preservice teachers learn culturally relevant research-based instructional strategies through university coursework situated in authentic learning experiences; thus, their learning as teacher candidates is enhanced through planning, implementation, evaluation, and critical reflection.