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1. Computer Science Principles for Teachers of Deaf Students.

   Ladner, R. E. (January 2020, RESPECT ’20: Research on Equity and Sustained Participation in Engineering, Computing, and Technology.)

   null (Ed.)

   A major goal of AP Computer Science Principles (CSP) is equity, that is, that all students should have the opportunity to learn computer science at a basic level. In this experience report, we explore how well the Code.org version of AP CSP meets the needs of Deaf students. We report on a professional development workshop for 14 teachers that teach at schools for the Deaf or in Deaf programs in mainstream schools. These schools and programs use the bilingual approach to teaching with instruction in American Sign Language (ASL) and other resources (e.g., textbooks, workbooks, videos, websites, computer apps, exams) in English. Synthesizing the experiences and advice of the teachers and workshop staff, we offer lessons learned for CS teachers in schools for the Deaf and Deaf programs in mainstream schools, mainstream CS teachers who may have one or a few Deaf students in their classes, and AP CSP content providers. Index Terms—Computer Science Principles, Deaf, English Language Learners, Bilingual, Professional Development 

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2. A Pre-service Pathway for Preparing Future AP CS Principles Teachers

   https://doi.org/10.1145/3328778.3366945  

   Gray, Jeff; Odom-Bartel, Rebecca; Zelkowski, Jeremy; Hamner, Karl; Rodgers-Farris, Sierra (February 2020, ACM Technical Symposium on Computer Science Education (SIGSCE))

   null (Ed.)

   The surge of interest in K-12 computer science (CS) over the past decade has led to a deep need for a corresponding expansion of trained teachers. The primary focus of most K-12 CS teacher professional development has been for current in-service teachers who have little background in CS. To raise the importance of CS within Colleges of Education, we believe that new pathways and experiences are needed for pre-service Education majors to learn more about authentic CS topics and pedagogy. This experience report summarizes our efforts over the past two years to prepare Secondary Math Education (SEMA) majors to teach AP CS Principles (AP CSP). Our approach consists of the following curricular activities: 1) a two-course sequence, with the first course mapping to the content topics of the AP CSP Curriculum Framework, and the second course consisting of a reflection of CS methods and pedagogy, including opportunities for SEMA students to develop and present their own AP CSP lesson plans; 2) opportunities for SEMA students to observe AP CSP classrooms in local high schools through our partnership with experienced AP CSP teachers; 3) summer participation in a College Board AP Summer Institute for AP CSP, and 4) a six-week ETS Praxis CS preparation modules-based course, offered to both pre-service SEMA students and in-service teachers. We summarize our lessons learned and present results that suggest our approach is preparing pre-service students with pedagogical and content knowledge that meets or exceeds current in-service training models (including an analysis of recent Praxis results for CS certification in our state). 

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3. Computer Science Principles for Teachers of Blind and Visually Impaired Students

   https://doi.org/10.1145/3287324.3287453  

   Stefik, Andreas; Ladner, Richard E.; Allee, William; Mealin, Sean (January 2019, Proceedings Article published 2019 in Proceedings of the 50th ACM Technical Symposium on Computer Science Education - SIGCSE '19)

   The College Board's AP Computer Science Principles (CSP) content has become a major new course for introducing K-12 students to the discipline. The course was designed for many reasons, but one major goal was to broaden participation. While significant work has been completed toward equity by many research groups, we know of no systematic analysis of CSP content created by major vendors in relation to accessibility for students with disabilities, especially those who are blind or visually impaired. In this experience report, we discuss two major actions by our team to make CSP more accessible. First, with the help of accessibility experts and teachers, we modified the entire Code.org CSP course to make it accessible. Second, we conducted a one-week professional development workshop in the summer of 2018 for teachers of blind or visually impaired students in order to help them prepare to teach CSP or support those who do. We report here on lessons learned that are useful to teachers who have blind or visually impaired students in their classes, to AP CSP curriculum providers, and to the College Board. 

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4. CSAwesome: AP CSA curriculum and professional development (practical report)

   https://doi.org/10.1145/3421590.3421593  

   Ericson, Barbara; Hoffman, Beryl; Rosato, Jennifer (October 2020, Proceedings of the 15th Workshop on Primary and Secondary Computing Education)

   null (Ed.)

   CSAwesome is a new approved curriculum and professional development (PD) provider for the Advanced Placement (AP) Computer Science (CS) A high school course. AP courses are taken by secondary (typically ages 14-19) students for college placement and/or credit. CSAwesome's free curriculum and teacher resources were developed in 2019 by adapting the CSA Java Review ebook on the open-source Runestone platform. The goals of CSAwesome are to broaden participation in the AP CSA course and to support new-to-CS students and teachers as they transition from the AP Computer Science Principles (CSP) course to the AP CSA course by using inclusive teaching practices and curriculum design. The AP CSP course is equivalent to a first course for non-majors at the college level, while the AP CSA course is equivalent to a first course for majors. Currently, AP CSA attracts a much less diverse student body than AP CSP. This new curriculum supports student engagement and scaffolded learning through an interactive ebook with embedded executable and modifiable code (Active Code), a variety of practice types with immediate feedback, and adaptable mixed-up code (Parsons) problems. Collaborative learning is encouraged through pair programming and groupwork. Our pilot Professional Development (PD) incorporates inclusive teaching strategies and active recruitment with the goal of broadening participation in CSA. This paper presents the design of the CSAwesome curriculum and teacher professional development and initial results from the curriculum use and pilot PD during the first year of CSAwesome. 

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5. Why Do Students Enroll in AP CSP?

   https://doi.org/10.1109/RESPECT51740.2021.9620546  

   Mark, June; Zeringue, Julie Koehler; Klein, K.; Mitchell, Tunisia; Olivares, José A. (January 2021, RESPECT 2021 Conference Proceedings)

   CS4All initiatives nationwide have been working to increase and diversify student participation in computer science (CS). One intentional effort to broaden participation in CS was the launch of the Advanced Placement (AP) CS Principles (CSP) course, which sought to increase the number of students enrolling in CS overall as well as from groups historically underrepresented in CS. Early AP CSP implementation results are encouraging and have identified the need to better understand essential supports for quality implementation, differential student experiences and outcomes, and students’ motivations for course enrollment. In this paper, we explore the motivations that affect student decisions to take AP CSP using survey data collected during fall 2019 in the New York City public schools, the largest school district in the U.S. This work is part of an ongoing research-practice partnership that provides teacher and school supports for AP CSP implementation and aims to improve outcomes especially for female, Black, and Latinx students in high-need schools. In particular, we examine how students’ reasons and influences for enrolling in AP CSP may differ based on self-identified gender and race/ethnicity. Our findings indicate that while most students shared an interest in learning more about CS, students from communities historically underrepresented in computing are more likely to report being placed in the course and to be influenced by guidance counselors. The implications of these results highlight the importance of understanding why students choose AP CSP in developing recruitment resources, student engagement strategies, and supports for implementation. 

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