More Like this

1. Standards-Aligned Instructional Supports to Promote Computer Science Teachers' Pedagogical Content Knowledge

   https://doi.org/10.1145/3478431.3499403  

   Basu, Satabdi; Rutstein, Daisy; Tate, Carol; Rachmatullah, Arif; Yang, Hui (February 2022, SIGCSE 2022: Proceedings of the 53rd ACM Technical Symposium on Computer Science Education V. 1)

   The rapid expansion of K-12 CS education has made it critical to support CS teachers, many of whom are new to teaching CS, with the necessary resources and training to strengthen their understanding of CS concepts and how to effectively teach CS. CS teachers are often tasked with teaching different curricula using different programming languages in different grades or during different school years, and tend to receive different professional development (PD) for each curriculum they are required to teach. This often leads to a lack of deep understanding of the underlying CS concepts and how different curricula address the same concepts in different ways. Empowering teachers to develop a deep understanding of CS standards, and use formative assessments to recognize common student challenges associated with the standards, will enable teachers to provide more effective CS instruction, irrespective of the curriculum and/or programming language they are tasked with using. This position paper advocates supporting CS teacher professional learning by supplementing existing curriculum-specific teacher PD with standards-aligned PD that focuses on teachers' conceptual understanding of CS standards and ability to adapt instruction based on student understanding of concepts underlying the CS standards. We share concrete examples of how to design standards-aligned educative resources and instructionally supportive tools that promote teachers' understanding of CS standards and common student challenges and develop teachers' formative assessment literacy, all essential components of CS pedagogical content knowledge. 

   more » « less
2. MENTORS in CS

   Walz, Mary; Homayounpour, Saghar; Bashir, DaQuan; Twarek, Bryan (July 2023, 2023 CSTA Chapter Leadership Summit)

   As the number of CS teachers increases to meet the burgeoning course offerings in the U.S., teachers new to the discipline need additional supports beyond one-time workshops focused on particular curricula. To address this need, we developed a year-long, equity-focused peer mentoring program. Mentors are teachers with 5+ years of CS teaching experience, and mentees are teachers who are new to teaching CS. They are strategically matched in 1:1 partnerships based on context and goals. Across one academic year, they meet twice monthly to identify and work towards three goals related to the CSTA Standards for CS Teachers. Through individualized support through 1:1 mentorship, teachers will demonstrate increased confidence, pedagogical content knowledge, and use of equitable and inclusive teaching practices. In this presentation, we share resources and guide other CSTA Chapter Leaders in planning how they can create their own peer mentoring programs. 

   more » « less
3. Lessons Learned from an Equity-Focused Peer Mentoring Program for High School CS Teachers

   https://doi.org/10.1145/3545947.3576314  

   Twarek, Bryan; Hubbard Cheuoua, Aleata; Campos, Ed; Fetherston, Amy; Echeverria, Fernando; Logan, Linnea (March 2023, Proceedings of the 54th ACM Technical Symposium on Computer Science Education)

   As the number of secondary CS teachers increases to meet the burgeoning course offerings in the U.S., teachers new to the discipline need additional supports beyond one-time workshops focused on particular curricula. To address this need, we implemented a year-long, equity-focused peer mentoring program with twenty-six teachers across one state. Participants met twice monthly to identify and work towards three goals related to the CSTA Standards for CS Teachers. Pilot data suggest that mentees increased in their teaching confidence but needed additional support to apply their learnings in their classrooms. We also identified several ways that our application process hampered our broadening participation goals by making it difficult for teachers working with rural, minoritized or low-income students to participate. In this poster, we will share lessons learned from our pilot and emerging findings from our second year of implementation. 

   more » « less
4. Evolving a K-12 Curriculum for Integrating Computer Science into Mathematics

   https://doi.org/10.1145/3408877.3432546  

   Fisler, Kathi; Schanzer, Emmanuel; Weimar, Steve; Fetter, Annie; Renninger, K. Ann; Krishnamurthi, Shriram; Politz, Joe Gibbs; Lerner, Benjamin; Poole, Jennifer; Koerner, Christine (March 2021, SIGCSE '21: Proceedings of the 52nd ACM Technical Symposium on Computer Science Education)

   null (Ed.)

   Integrating computing into other subjects promises to address many challenges to offering standalone CS courses in K-12 contexts. Integrated curricula must be designed carefully, however, to both meet learning objectives of the host discipline and to gain traction with teachers. We describe the multi-year evolution of Bootstrap, a curriculum for integrating computing into middle- and high-school mathematics. We discuss the initial design and the various modifications we have made over the years to better support math instruction, leading to our goal of using integrated curricula to cover standards in both math and CS. We provide advice for others aiming for integration and raise questions for CS educators about how we might better support learning in other disciplines. 

   more » « less
5. Extended computing integrated curricula scored for K-12 CS standards

   https://doi.org/10.5061/dryad.j6q573nnt  

   Margulieux, Lauren; Liao, Yin-Chan; Anderson, Erin; Parker, Miranda; Calandra, Brendan (January 2024, Dryad)

   Integrated computing curricula combine learning objectives in computing with those in another discipline, like literacy, math, or science, to give all students experience with computing, typically before they must decide whether to take standalone CS courses. One goal of integrated computing curricula is to provide an accessible path to an introductory computing course by introducing computing concepts and practices in required courses. This paper analyzed integrated computing curricula to determine which CS practices and concepts they teach and how extensively and, thus, how they prepare students for later computing courses. The authors conducted a content analysis to examine primary and lower secondary (i.e., K-8) curricula that are taught in non-CS classrooms, have explicit CS learning objectives (i.e., CS+X), and that took >5 hours to complete. Lesson plans, descriptions, and resources were scored based on frameworks developed from the K-12 CS Framework, including programming concepts, non-programming CS concepts, and CS practices. The results found that curricula most extensively taught introductory concepts and practices, such as sequences, and rarely taught more advanced content, such as conditionals. Students who engage with most of these curricula would have no experience working with fundamental concepts, like variables, operators, data collection or storage, or abstraction in the context of a program. While this focus might be appropriate for integrated curricula, it has implications for the prior knowledge that students should be expected to have when starting standalone computing courses. 

   more » « less