Lori Pollock
ABSTRACT
The CS for All initiative places increased emphasis on the need to prepare K-12 teachers of computer science (CS). Professional development (PD) programs continue to be an essential mechanism for preparing in-service teachers who have little formal background in CS content, skills, and teaching pedagogy. While increased investment by federal agencies and the industry has raised the number of CS PD opportunities for K-12 teachers, there has been limited study of how teachers apply what they learn back in their classroom. This paper describes an in-depth qualitative study through interviews of 28 elementary, middle and high school teachers who participated in summer PD in preparation of teaching a full CS course or integrate CS modules into existing courses (e.g., science, engineering, business, technology, etc). The interview protocol focused on educators' involvement in the PD, specific skills and strategies they learned, whether and how they have been able to apply these new skills in the classroom, what facilitated or impeded this application, and how students have responded.
- Barab, S., & Luehmann, A. Building Sustainable Science Curriculum: Acknowledging and Accommodating Local Adaptation. Science Education, 87(4): 454--467, 2003. Google Scholar
Cross Ref
- Century, J., Lach, M., King, H., Rand, S., Heppner, C., Franke, B., & Westrick, J. 2013. Building an Operating System for Computer Science. Chicago, IL: CEMS University of Chicago with UEI, University of Chicago. Retrieved 2015, from http://outlier.uchicago.edu/computerscience/OS4CS/.Google Scholar
- Cuny, J. Transforming high school computing: A call to action. ACM Inroads, 3(2): 32--36, 2012 Google ScholarDigital Library
- Cuny, J., Baxter, D.D., Garcia, D., Hall, S., Gray, J., Morelli, R., and Baxter, D., CS Principles Professional Development: Only 9,500 to go! In Proc. of the 45th Annual ACM SIGCSE Conf., pages 543--544, 2014. Google ScholarDigital Library
- Desimone, L. Improving Impact Studies of Teachers? Professional Development: Toward Better Conceptualizations and Measures. Educational Researcher, 38(3): 181--199, 2009. Google ScholarCross Ref
- Goode, J., Margolis, J., and Chapman, G. Curriculum is Not Enough: The Educational Theory and Research Foundation of the Exploring Computer Science Professional Development Model. Proc. of the 45th Annual ACM SIGCSE Conf., pages 493{498, 2014. Google ScholarDigital Library
- Gray, J., Haynie K., Packman S., Boehm M., Crawford C., Muralidhar, D., A Mid-Project Report on a Statewide Professional Development Model for CS Principles, Proceedings of the 46th ACM Technical Symposium on Computer Science Education, March 04-07, 2015, Kansas City, Missouri, USA. Google ScholarDigital Library
- Guzdial, M., Ericson, B., Mcklin, T., Engelman, S., Georgia Computes! An Intervention in a US State, with Formal and Informal Education in a Policy Context. ACM Transactions on Computing Education, v14 n2 Article 13 Jun 2014. Google ScholarDigital Library
- Morelli, R., Uche, C., Lake, P., & Baldwin, L. 2015. Analyzing Year One of a CS Principles PD Project. In Proceedings of the 46th ACM Technical Symposium on Google ScholarDigital Library
- Computer Science Education (SIGCSE '15). ACM, New York, NY, USA, 368--373.Google Scholar
- Price, T., Cateté, V., Albert, J., Barnes, T., and Garcia, D., 2016. Lessons Learned from "BJC" CS Principles Professional Development. In Proceedings of the 47th ACM Technical Symposium on Computing Science Education (SIGCSE '16). ACM, New York, NY, USA, 467--472. Google ScholarDigital Library
- Mouza, C., Pollock, L., Pusecker, K., Guidry, K., Yeh, C-Y., Atlas, J., Harvey, T., Implementation and Outcomes of a Three-Pronged Approach to Professional Development for CS Principles. In Proceedings of the 47th ACM Technical Symposium on Computer Science Education (SIGCSE '16). ACM, New York, NY, USA. Google ScholarDigital Library
- Yoon, K. S., Duncan, T., Lee, S., Scarloss, B., and Shapley, K., Reviewing the Evidence on How Teacher Professional Development Affects Student Achievement (PDF). Issues & Answers Report, REL 2007--No. 033. Washington, DC: U.S. Department of Education, Institute of Education Sciences, National Center for Education Evaluation and Regional Assistance, Regional Educational Laboratory Southwest, 2007.Google Scholar
Index Terms
- From Professional Development to the Classroom: Findings from CS K-12 Teachers
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