scholarly journals Computational Thinking, Between Papert and Wing

Author(s):  
Michael Lodi ◽  
Simone Martini

AbstractThe pervasiveness of Computer Science (CS) in today’s digital society and the extensive use of computational methods in other sciences call for its introduction in the school curriculum. Hence, Computer Science Education is becoming more and more relevant. In CS K-12 education, computational thinking (CT) is one of the abused buzzwords: different stakeholders (media, educators, politicians) give it different meanings, some more oriented to CS, others more linked to its interdisciplinary value. The expression was introduced by two leading researchers, Jeannette Wing (in 2006) and Seymour Papert (much early, in 1980), each of them stressing different aspects of a common theme. This paper will use a historical approach to review, discuss, and put in context these first two educational and epistemological approaches to CT. We will relate them to today’s context and evaluate what aspects are still relevant for CS K-12 education. Of the two, particular interest is devoted to “Papert’s CT,” which is the lesser-known and the lesser-studied. We will conclude that “Wing’s CT” and “Papert’s CT,” when correctly understood, are both relevant to today’s computer science education. From Wing, we should retain computer science’s centrality, CT being the (scientific and cultural) substratum of the technical competencies. Under this interpretation, CT is a lens and a set of categories for understanding the algorithmic fabric of today’s world. From Papert, we should retain the constructionist idea that only a social and affective involvement of students into the technical content will make programming an interdisciplinary tool for learning (also) other disciplines. We will also discuss the often quoted (and often unverified) claim that CT automatically “transfers” to other broad 21st century skills. Our analysis will be relevant for educators and scholars to recognize and avoid misconceptions and build on the two core roots of CT.

Author(s):  
Alexander Repenning ◽  
Anna Lamprou ◽  
Patrick Wigger

A difficult challenge to computer science education is the systemic professional development of teachers. K-12 computer science education models limited to voluntary in-service teacher professional development may not reach a critical majority of teachers who are skeptical towards information technology, computer science, programming and computational thinking. The inclusion of computer science in a national K-12 education standard in Switzerland has made it possible to move beyond voluntary K-12 computer science education for in-service teachers to mandatory pre-service teacher education for all elementary teachers. This chapter describes the vision of the Digital Polymath as a digitally enabled person empowered by computational thinking to connect computer science with other disciplines. The course design, combining game design activities, computational thinking tools and the 7 big ideas from the computer science principles framework is outlined and experiences are reported.


Author(s):  
Kyungbin Kwon ◽  
Jongpil Cheon

Although teachers need to assess computational thinking (CT) for computer science education in K-12, it is not easy for them to evaluate students’ programs based on the perspective. The purpose of this study was to investigate students’ CT skills reflected in their Scratch programs. The context of the study was a middle school coding club where seven students voluntarily participated in a five-week coding activity. A total of eleven Scratch programs were analyzed in two aspects: problem decomposition and program development. Results revealed that students demonstrated proper decompositions of problems, which supported program development processes. However, in some cases, students failed to decompose necessary parts as their projects got sophisticated, which resulted in the failure or errors of programs. Regarding program development, algorythmic thinking had been identified as the area to be improved. Debugging and evaluation of programs were the necessary process students needed to practice. Implications for teaching CT skills were discussed.


2021 ◽  
Vol 21 (2) ◽  
pp. 1-31
Author(s):  
Joslenne Peña ◽  
Benjamin V. Hanrahan ◽  
Mary Beth Rosson ◽  
Carmen Cole

Many initiatives have focused on attracting girls and young women (K-12 or college) to computer science education. However, professional women who never learned to program have been largely ignored, despite the fact that such individuals may have many opportunities to benefit from enhanced skills and attitudes about computer programming. To provide a convenient learning space for this population, we created and evaluated the impacts of a nine-week web development workshop that was carefully designed to be both comfortable and engaging for this population. In this article, we report how the professionals’ attitudes and skills grew over the course of the workshop and how they now expect to integrate these skills and attitudes into their everyday lives.


Author(s):  
Peter Hubwieser ◽  
Michail N. Giannakos ◽  
Marc Berges ◽  
Torsten Brinda ◽  
Ira Diethelm ◽  
...  

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