A Generator of Game Programming Challenges for Computational Thinking Development

Computational thinking (CT) has become a skill that is taught starting from an early age with its increasing popularity. In addition, the opinion that CT is related to other 21st century skills finds its place in the literature. The main purpose of this study is to identify the contributions of scaffolding-based game programming activities to students' CT and 21st-century skills. In line with this purpose, the study was designed as a qualitative case study. The participants of the study consisted of 16 primary school students, 10 pre-service ICT Teachers, and 2 primary school teachers. The research results reveal that game programming has a positive effect on students' CT skills, 21st century skills and some psychometric variables like self-confidence and motivation. In future studies and implementations, educators may support their instructions of programming through different scaffolding strategies. In addition, it should be taken into consideration that students can become innovative designers with content that they find interesting.

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Asserting parallel computational thinking into an undergraduate computer science curriculum

PsycEXTRA Dataset ◽

10.1037/e605122012-018 ◽

2011 ◽

Author(s):

Edusmildo Orozco ◽

Rafael Arce-Nazario ◽

Peter Musial ◽

Cynthia Lucena-Roman ◽

Zoraida Santiago

Keyword(s):

Computer Science ◽

Science Curriculum ◽

Computational Thinking ◽

Computer Science Curriculum

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Computational Thinking Scale

PsycTESTS Dataset ◽

10.1037/t78367-000 ◽

2019 ◽

Author(s):

Buket Ertugrul-Akyol

Keyword(s):

Computational Thinking

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THE METHODS OF DEVELOPING COMPUTATIONAL THINKING OF STUDENTS WHILE STUDYING THE COURSE "NUMERICAL METHODS" BASED ON BLENDED LEARNING

Informatics and Education ◽

10.32517/0234-0453-2019-34-6-34-41 ◽

2019 ◽

pp. 34-41

Author(s):

M. M. Klunnikova

Keyword(s):

Numerical Methods ◽

Blended Learning ◽

Computational Thinking ◽

Individual Characteristics ◽

Diagnostic Model ◽

Mathematics Students ◽

Professional Activities ◽

Cognitive Component ◽

Professional Field ◽

The Individual

The work is devoted to the consideration of improving the quality of teaching students the discipline “Numerical methods” through the development of the cognitive component of computational thinking based on blended learning. The article presents a methodology for the formation of computational thinking of mathematics students, based on the visualization of algorithmic design schemes and the activation of the cognitive independence of students. The characteristic of computational thinking is given, the content and structure of computational thinking are shown. It is argued that a student with such a mind is able to manifest himself in his professional field in the best possible way. The results of the application of the technique are described. To determine the level of development of the cognitive component of computational thinking, a diagnostic model has been developed based on measuring the content, operational and motivational components. It is shown that the proposed method of developing computational thinking of students, taking into account the individual characteristics of students’ thinking, meaningfully based on the theoretical and practical aspects of studying the discipline, increases the effectiveness of learning the course “Numerical methods”. The materials of the article are of practical value for teachers of mathematical disciplines who use information and telecommunication technologies in their professional activities.

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