Developing student’s computational thinking through graphic calculator in STEAM education

2019 ◽  
Author(s):  
Corrienna Abdul Talib ◽  
Hassan Aliyu ◽  
Rainer Zawadzki ◽  
Marlina Ali
Keyword(s):  
Computational Thinking ◽  
Graphic Calculator ◽  
Steam Education

Integrating Computational Thinking and Mathematics

2022 ◽  
pp. 175-196
Author(s):  
Marja Bertrand ◽  
Immaculate Kizito Namukasa
Keyword(s):  
Education Reform ◽  
Creative Thinking ◽  
Computational Thinking ◽  
Thinking Skills ◽  
Non Profit ◽  
The Arts ◽  
Learning Mathematics ◽  
Steam Education ◽  
Context Of Learning ◽  
And Mathematics

Globally, computational thinking and coding in schools has become more popular as well as a growing area of interest in education reform. Coupling coding with creative thinking promises to meaningfully engage students in their learning and to improve their coding and computational thinking skills. This prompts discussions about STEAM (Science, Technology, Engineering, Arts, and Mathematics), which promotes creativity and innovation through the integration of the arts in STEM subjects. This study addresses the following question: What mathematics and computational thinking do students learn through different models of STEAM education in non-profit and in-school contexts? A small sample was taken of four different STEAM programs in Ontario, Canada. We carried out a qualitative case study with 103 participants, 19 adults and 84 students. The findings from this study have implications for designing, implementing and researching K-8 STEAM programs that promote coding and computational thinking skills in the context of learning mathematics.

Integrating Computational Thinking and Mathematics

2020 ◽  
pp. 69-91
Author(s):  
Marja Bertrand ◽  
Immaculate Kizito Namukasa
Keyword(s):  
Education Reform ◽  
Creative Thinking ◽  
Computational Thinking ◽  
Thinking Skills ◽  
Non Profit ◽  
The Arts ◽  
Learning Mathematics ◽  
Steam Education ◽  
Context Of Learning ◽  
And Mathematics

Globally, computational thinking and coding in schools has become more popular as well as a growing area of interest in education reform. Coupling coding with creative thinking promises to meaningfully engage students in their learning and to improve their coding and computational thinking skills. This prompts discussions about STEAM (Science, Technology, Engineering, Arts, and Mathematics), which promotes creativity and innovation through the integration of the arts in STEM subjects. This study addresses the following question: What mathematics and computational thinking do students learn through different models of STEAM education in non-profit and in-school contexts? A small sample was taken of four different STEAM programs in Ontario, Canada. We carried out a qualitative case study with 103 participants, 19 adults and 84 students. The findings from this study have implications for designing, implementing and researching K-8 STEAM programs that promote coding and computational thinking skills in the context of learning mathematics.

Asserting parallel computational thinking into an undergraduate computer science curriculum

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

Computational Thinking Scale

2019 ◽  
Author(s):  
Buket Ertugrul-Akyol
Keyword(s):  
Computational Thinking

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

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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