Faritov A.T. —
Component composition of the system of formation of engineering competence of students of general educational intuition
// Pedagogy and education. – 2020. – ¹ 1.
– P. 56 - 62.
DOI: 10.7256/2454-0676.2020.1.31059
URL: https://en.e-notabene.ru/ppmag/article_31059.html
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Abstract: Within the framework of this article, the author conducts a research allowing to reveal the internal structure of engineering competence of students of general educational intuition as the basis of project-research activity, implemented in terms of school curriculum. The boundaries between the concept of “competence” and “competency” are outlined. A detailed definition of engineering competence is provided. The author examines the component composition of the formation of engineering competence among the students of general educational institution. The object of this research is the engineering competence, while the subject is the set of constituent components. It is established that engineering competence of a student has a multi-component composition that includes motivational, activity, personality, intellectual, cognitive and reflexive components. The scientific novelty of the acquired results consists in the fact that the described components can be used for the criteria-based assessment of engineering competence of the students of general educational intuition. The presented components can be the foundation for the criteria-based assessment of the level of engineering competence of a student.
Faritov A.T. —
Methodology of studying the process of formation of engineering competence among students of general educational institutions
// Modern Education. – 2019. – ¹ 4.
– P. 32 - 43.
DOI: 10.25136/2409-8736.2019.4.31213
URL: https://en.e-notabene.ru/pp/article_31213.html
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Abstract: This article contains the results of the conducted research focused on studying approaches towards formation of engineering competence among students of general educational institutions. As a result, the author formulated an exhaustive definition of the term “engineering competence”, examined the peculiarities of approaches towards its formation, and determined the principles of each of the described approaches corresponding with the specificities of formation of engineering competence. The object of research is the engineering competence; the subject is the set of scientific approaches and related principles contributing to its formation among the students of 7 – 9 grades. The scientific novelty consists in systematization and framing of the concept of “engineering competence of the students”, disclosure of the most optimal teaching approaches from the perspective of formation of engineering competence, as well as identification of teaching principles contributing to the development of research and project activity. The author substantiates the reasonableness of integrated application of the approaches (personality oriented, competent, activity and systemic) towards formation of engineering competence among the middle school students.
Faritov A.T. —
To the question of implementation of 3D-prototyping in the students’ extracurricular activity
// Modern Education. – 2019. – ¹ 4.
– P. 55 - 63.
DOI: 10.25136/2409-8736.2019.4.31593
URL: https://en.e-notabene.ru/pp/article_31593.html
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Abstract: The current global standards require the state educational system to grasp the basics of research and project activity, namely the skills of 3D-prototyping. The correlation is traced between realizing the importance of implementation of modern technologies into educational process and insufficiency of the conducted scientific research on the topic. Therefore, the subject of this article is the organizational factors assisting the efficient implementation of rapid prototyping technologies within the framework of extracurricular school activity. Based on the results of the conducted research, the author determines the content of pedagogical procurement of the process of implementation of 3D-prototyping technology into the educational process in terms of extracurricular activity. The external factors influencing the effectiveness of integration of 3D-technologies into the school educational environment are substantiated and experimentally verified. The author explores the peculiarities of rapid prototyping technology, as well as possibilities of their application in educational process.
Faritov A.T. —
3D modeling and prototyping in extracurricular activity of school students
// Pedagogy and education. – 2019. – ¹ 4.
– P. 155 - 167.
DOI: 10.7256/2454-0676.2019.4.31700
URL: https://en.e-notabene.ru/ppmag/article_31700.html
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Abstract: This article examines the application of 3D prototyping in educational process. The technology of 3D printing is currently available for most educational establishments. Its use in extracurricular activity contributes to switching students from virtual environment to the real world, creation of the own tangible items, formation of engineering competence, development of creative skills, mathematical thinking, and early professional orientation. New standards demand from the state education system the development of the principles of mastering the fundamentals of project activities, namely engineering skills. A new way of project-based learning, aimed at acquisition of communication skills, creative thinking, interest to learning, command of spatial thinking and understanding of conversion 2D and 3D, independence and self-organization in completion of tasks, becomes possible due to application of 3D prototyping in extracurricular activity. The object of this research is the 3D modeling and prototyping. The scientific novelty consists in description of the stages of implementation of 3D printing technologies into educational process. The author examines the possibility of application of 3D printing technologies in extracurricular activity of students in compulsory education.
Faritov A.T. —
Certain aspects of classification and implementation of quest games in school
// Modern Education. – 2019. – ¹ 1.
– P. 25 - 32.
DOI: 10.25136/2409-8736.2019.1.24477
URL: https://en.e-notabene.ru/pp/article_24477.html
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Abstract: The subject of this research is the theoretical-methodological specificity and peculiarities of practical implementation of quest games technology in the school educational process. The author discusses separate aspects of classification and implementation of quest games in school; determines significant differences of educational quest from other game technologies; as well as gives definition to the concept of “educational quest game”. The article also considers various approaches and bases of the classification of quests, and demonstrates a number of original versions of classification. The proposed milestone plan of the development of educational quest is illustrated by a specific example of designing a quest game “Interstellar Journey” (educational fields of “mathematics and informatics”, “physics”, and “economics”). The tasks faced by a modern comprehensive school stirred interest of pedagogical community towards interactive and active teaching methods. Game educational technologies, developed on the basis of activity, competence, and contextual approaches allow to not only increase students’ motivation and cognitive interest to a specific discipline, but also ensure the achievement of interdisciplinary results in accordance with the requirements of the Federal Educational Standard. Quest games may be efficiently applied in educational process of a comprehensive school; however, it demands significant efforts of a pedagogue on their development and delivery.