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1. Exploring the Intersectional Development of Computer Science Identities in Young Latinas

   https://doi.org/10.1177/01614681221103932  

   Rawhiya Jacob, Sharin; Montoya, Jonathan; Warschauer, Mark (May 2022, Teachers College Record: The Voice of Scholarship in Education)

   Background: There has been a dearth of research on intersectional identities in STEM, including the fields of computing and engineering. In computing education research, much work has been done on broadening participation, but there has been little investigation into how the field of computer science (CS) presents opportunities for students with strong intersectional identities. This study explores the strengths and connections among the unique identities and the symbiotic relationships that elementary Latina students hold in CS identity attainment. Purpose: The aim of this article is to better understand how predominantly low-income, multilingual Latina students experience identity development through the lens of diverse group membership. We examine how young Latinas, through their participation in a yearlong culturally and linguistically responsive CS curriculum, leverage their intersecting identities to rewrite the formula of what a computer scientist is and can be, leaving space to include and invite other strong identities as well. Research Design: An explanatory sequential mixed-methods design was used that analyzed data from predominantly low-income, multilingual Latinas in upper elementary grades, including pre- and post-CS identity surveys (N = 50) delivered before and after implementation of the curriculum, and eight individual semi-structured student interviews. Findings: We found that Latina students developed significantly stronger identification with the field of CS from the beginning to the end of the school year with regard to their experiences with CS, perception of themselves as computer scientists, family support for CS and school, and friend support for CS and school. Interviews revealed that perception of their CS ability greatly influenced identification with CS and that girls’ self-perceptions stemmed from their school, cultural, and home learning environments. Conclusion: Our results highlight the wealth of resources that Latinas bring to the classroom through their home- and community-based assets, which are characterized by intersecting group membership. Students did not report on the intersection between language and CS identity development, which warrants further investigation. 

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2. Exploring the Intersectional Development of Computer Science Identities in Young Latinas.

   Jacob, S; Montoya, J; Warschauer, M (June 2022, Teachers College record)

   Background: There has been a dearth of research on intersectional identities in STEM, including the fields of computing and engineering. In computing education research, much work has been done on broadening participation, but there has been little investigation into how the field of computer science (CS) presents opportunities for students with strong intersectional identities. This study explores the strengths and connections among the unique identities and the symbiotic relationships that elementary Latina students hold in CS identity attainment. Purpose: The aim of this article is to better understand how predominantly lowincome, multilingual Latina students experience identity development through the lens of diverse group membership. We examine how young Latinas, through their participation in a yearlong culturally and linguistically responsive CS curriculum, leverage their intersecting identities to rewrite the formula of what a computer scientist is and can be, leaving space to include and invite other strong identities as well. Research Design: An explanatory sequential mixed-methods design was used that analyzed data from predominantly low-income, multilingual Latinas in upper elementary grades, including pre- and post-CS identity surveys (N = 50) delivered before and after implementation of the curriculum, and eight individual semistructured student interviews. Findings: We found that Latina students developed significantly stronger identification with the field of CS from the beginning to the end of the school year with regard to their experiences with CS, perception of themselves as computer scientists, family support for CS and school, and friend support for CS and school. Interviews revealed that perception of their CS ability greatly influenced identification with CS and that girls’ self-perceptions stemmed from their school, cultural, and home learning environments. Conclusion: Our results highlight the wealth of resources that Latinas bring to the classroom through their home- and community-based assets, which are characterized by intersecting group membership. Students did not report on the intersection between language and CS identity development, which warrants further investigation. 

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3. Multilingual CS Education Pathways: Implications for Vertically-Scaled Assessment

   https://doi.org/10.1145/3478431.3499315  

   Kao, Yvonne; Weintrop, David (February 2022, SIGCSE 2022: Proceedings of the 53rd ACM Technical Symposium on Computer Science Education)

   The expansion of computer science (CS) into K-12 contexts has resulted in a diverse ecosystem of curricula designed for various grade levels, teaching a variety of concepts, and using a wide array of different programming languages and environments. Many students will learn more than one programming language over the course of their studies. There is a growing need for computer science assessment that can measure student learning over time, but the multilingual learning pathways create two challenges for assessment in computer science. First, there are not validated assessments for all of the programming languages used in CS classrooms. Second, it is difficult to measure growth in student understanding over time when students move between programming languages as they progress in their CS education. In this position paper, we argue that the field of computing education research needs to develop methods and tools to better measure students' learning over time and across the different programming languages they learn along the way. In presenting this position, we share data that shows students approach assessment problems differently depending on the programming language, even when the problems are conceptually isomorphic, and discuss some approaches for developing multilingual assessments of student learning over time. 

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4. A Structural Equation Model Analysis of Computing Identity Sub-Constructs and Student Academic Persistence

   https://doi.org/10.1109/FIE.2018.8658378  

   Taheri, Mohsen; Ross, Monique; Hazari, Zahra; Weiss, Mark; Georgiopoulos, Michael; Christensen, Ken; Solis, Tiana; Garcia, Atalie; Chari, Deepa (October 2018, IEEE Frontiers in Education Conference (FIE) 2018)

   This Research Full Paper presents the effects of computing identity sub-constructs on the persistence of computer science students. Computer science (CS) is one of the fastest growing disciplines in the world and an emerging critical field for all students to obtain vital skills to be successful in the 21st century. Despite the growing importance of computer science, many university and college programs suffer from low student persistence rates. Disciplinary identity is a theoretical framework that refers to how students see themselves with respect to a discipline and is related to long-term membership in a disciplinary community. The theory has been effectively applied in Science, Technology, Engineering, and Mathematics (STEM) to understand students' success and persistence. This study examines the effects of performance/competence, recognition, interest and sense of belonging on the academic persistence of computer science students. A survey of approximately 1,640 computing students as part of a National Science Foundation (NSF) funded project was developed and administered at three metropolitan public institutions. Confirmatory Factor Analysis (CFA) was performed to validate the sub-constructs of identity for use in a computing identity model. Then, a structural equation model (SEM) was constructed as a snapshot of the structural relationships for describing and quantifying the impact of the identity subconstructs on persistence. The results indicated that our model for CS aligns with prior research on disciplinary identity but also adds the importance of sense of belonging. In addition, the findings indicate that students' academic persistence is directly influenced by their interest. A better understanding of these factors may leverage insight into students’ academic persistence in computer science/engineering programs as well as a meaningful lens of analysis for further curriculum and extracurricular activities. 

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5. Micro:bit vs. Python: Students’ perceptions and attitudes toward computing

   Veng, S; Mouza, C; Pollock, L (March 2024, Proceedings of Society for Information Technology & Teacher Education International Conference)

   Cohen, J; Solano, G (Ed.)

   There has been a growing interest in teaching computer science (CS) concepts to students at a younger age. Increasingly, block-based programming has been used in place of traditional text-based programming languages, like Python, in K-12 education. However, little empirical research has been conducted to compare the combination of the former and physical computing with the latter. This study aimed to address this gap by comparing the attitudes and perceptions of elementary school students in the two approaches in a six-week afterschool program. The findings from the experiment indicated that students’ attitudes and perceptions toward computing were more positive when using physical computing. These findings suggest potential pedagogical implications and future research directions. 

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