Orni Meerbaum-Salant scite author profile

Computer science (CS) activities for young students are widely used, particularly visual programming environments. We investigated the use of the Scratch environment for teaching CS concepts to middle school students. In a previous article [Meerbaum-Salant et al. 2013], we reported on the extent to which the CS concepts were successfully learned. In this article, we look at the transition from studying CS with the visual Scratch environment in middle school to studying CS with a professional textual programming language (C# or Java) in secondary school. We found that the programming knowledge and experience of students who had learned Scratch greatly facilitated learning the more advanced material in secondary school: less time was needed to learn new topics, there were fewer learning difficulties, and they achieved higher cognitive levels of understanding of most concepts (although at the end of the teaching process, there were no significant differences in achievements compared to students who had not studied Scratch). Furthermore, there was increased enrollment in CS classes, and students were observed to display higher levels of motivation and self-efficacy. This research justifies teaching CS in general and visual programming in particular in middle schools.

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Habits of programming in scratch

Meerbaum-Salant

Armoni

Ben‐Ari

2011

159

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Visual programming environments are widely used to introduce young people to computer science and programming; in particular, they encourage learning by exploration. During our research on teaching and learning computer science concepts with Scratch, we discovered that Scratch engenders certain habits of programming: (a) a totally bottom-up development process that starts with the individual Scratch blocks, and (b) a tendency to extremely fine-grained programming. Both these behaviors are at odds with accepted practice in computer science that encourages one: (a) to start by designing an algorithm to solve a problem, and (b) to use programming constructs to cleanly structure programs. Our results raise the question of whether exploratory learning with a visual programming environment might actually be detrimental to more advanced study.

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Learning computer science concepts with scratch

2010

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Scratch is a visual programming environment that is widely used by young people. We investigated if Scratch can be used to teach concepts of computer science. We developed new learning materials for middle-school students that were designed according to the constructionist philosophy of Scratch and evaluated them in two schools. The classes were normal classes, not extracurricular activities whose participants are self-selected. Questionnaires and a test were constructed based upon a novel combination of the Revised Bloom Taxonomy and the SOLO taxonomy. These quantitative instruments were augmented with a qualitative analysis of observations within the classes. The results showed that in general students could successfully learn important concepts of computer science, although there were some problems with initialization, variables and concurrency; these problems can be overcome by modifications to the teaching process.

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An Agile Constructionist Mentoring Methodology for Software Projects in the High School

Meerbaum-Salant

Hazzan

2010

ACM Trans. Comput. Educ.

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This article describes the construction process and evaluation of the Agile Constructionist Mentoring Methodology (ACMM), a mentoring method for guiding software development projects in the high school. The need for such a methodology has arisen due to the complexity of mentoring software project development in the high school. We introduce the ACMM and suggest a year-long mentoring template that includes the practices required for the actual mentoring process. The evaluation of the ACMM reveals that the methodology addresses each of the challenges teachers cope with during the mentoring process, which were identified in the first phase of the research.

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