Будь ласка, використовуйте цей ідентифікатор, щоб цитувати або посилатися на цей матеріал: http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/4446

Назва:	Formation of informational and digital competence of secondary school students in laboratory work in physics
Автори:	Martyniuk, Oleksandr O. Martyniuk, Oleksandr S. Muzyka, Ivan O.
Ключові слова:	Informational and digital competence training programs laboratory practicum
Дата публікації:	10-чер-2021
Видавництво:	CEUR Workshop Proceedings
Бібліографічний опис:	Martyniuk O. O. Formation of informational and digital competence of secondary school students in laboratory work in physics / Oleksandr O. Martyniuk, Oleksandr S. Martyniuk, Ivan O. Muzyka // CEUR Workshop Proceedings. - Vol. 2879. - P. 366-383.
Короткий огляд (реферат):	The article deals with the formation of informational and digital competence of high school students. First and foremost, the existing digitalization strategies for society already approved in the world and in Ukraine, including the implementation of STEM education and the Digital Agenda, are considered. On the other hand, attention is paid to the inconsistency of the level of ownership and frequency of use of digital technologies with the requirements of these initiatives. The concept of informational and digital competence is analyzed in detail. Existing publications identify key components, skills and competencies required to achieve this competence. A survey is conducted to better understand the current situation. One of the tasks is to determine the level of use of digital information in the classroom by teachers and in students’ preparation at home. The second task was to show how developing students’ informational and digital competence can be done by active introduction of existing software and hardware in the educational process in physics, in particular, a laboratory workshop. The example of laboratory work carried out in educational institutions shows how modern software can be used to analyze the movement of bodies and determine the physical characteristics of this movement. The concrete ways of performing laboratory work, analyzing its results and drawing conclusions are given. It is in the combination of existing teaching practices with modern gadgets, specialized and general programs that the basic way of forming informational and digital competence is seen. Further ways of modernization and improvement of described methods for increasing the level of information and digital competence are proposed.
Опис:	[1] T. Konovalenko, Y. Nadolska, Development of future foreign language teachers’ information literacy and digital skills in ukrainian context, E3S Web of Conferences 166 (2020) 10009. doi:10.1051/e3sconf/202016610009. [2] Ukrinform.ua, Zelensky’s Advisor: The digitalization of the country should be comprehensive, not punctual, 2019. URL: https://www.ukrinform.ua/rubric-technology/ 2715607-ukraina-mae-ruhatisa-do-povnogo-perehodu-na-cifrovi-tehnologii-radnik-zelenskogo. html. [3] On Approval of the Concept of Development of the Digital Economy and Society of Ukraine for 2018-2020 and Approval of the Plan of Measures for its Implementation, January 17, 2018 No. 67-p, 2018. URL: http://zakon3.rada.gov.ua/laws/show/67-2018-r. [4] Digital Agenda of Ukraine - 2020 («Digital Agenda» - 2020), Conceptual backgrounds (version 1.0), Priority areas, initiatives, projects for «digitization» of Ukraine until 2020, 2016. URL: https://ucci.org.ua/uploads/files/58e78ee3c3922.pdf. [5] Eur-lex.eu, Recommendation of the European Parliament and of the Council, 2018. URL: https://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2006:394:0010:0018: en:PDF. [6] Council conclusions on a strategic framework for European cooperation in education and training. ET 2020. Meeting of the Education, Youth and Culture Council, 2009. URL: http://www.consilium.europa.eu/uedocs/cms_data/docs/pressdata/en/educ/107622.pdf. [7] M. Z. Zghurovskyi, Foresight economies of Ukraine: medium-term (2015–2020) and longterm (2020–2030) time horizons, 2015. URL: http://www.consilium.europa.eu/uedocs/cms_ data/docs/pressdata/en/educ/107622.pdf. [8] M. Shyshkina, The problems of personnel training for STEM education in the modern innovative learning and research environment, CEUR Workshop Proceedings 2257 (2018) 61–65. [9] Y. Shapovalov, Z. Bilyk, A. Atamas, V. Shapovalov, A. Uchitel, The potential of using google expeditions and Google Lens tools under STEM-education in ukraine, CEUR Workshop Proceedings 2257 (2018) 66–74. [10] V. Shapovalov, A. Atamas, Z. Bilyk, Y. Shapovalov, A. Uchitel, Structuring augmented reality information on the stemua science, CEUR Workshop Proceedings 2257 (2018) 75–86. [11] N. Balyk, O. Barna, G. Shmyger, V. Oleksiuk, Model of professional retraining of teachers based on the development of STEM competencies, CEUR Workshop Proceedings 2104 (2018) 318–331. [12] O. Burov, I. Parkhomenko, O. Burmaka, Y. Vasilchenko, Cognitive abilities’ research technology as a tool for STEM-education, CEUR Workshop Proceedings 2104 (2018) 380–387. [13] N. Kushnir, N. Valko, N. Osipova, T. Bazanova, Experience of foundation STEM-school, CEUR Workshop Proceedings 2104 (2018) 431–446. [14] I. Lovianova, D. Bobyliev, A. Uchitel, Cloud calculations within the optional course Optimization Problems for 10th-11th graders, CEUR Workshop Proceedings 2433 (2019) 459–471. [15] N. Balyk, S. Leshchuk, D. Yatsenyak, Developing a Mini Smart House model, CEUR Workshop Proceedings 2546 (2019) 198–212. [16] T. Goncharenko, N. Kushnir, N. Valko, N. Osipova, Activity plan template for supporting study science with robotics and programming, CEUR Workshop Proceedings 2393 (2019) 132–143. [17] V. Osadchyi, N. Valko, N. Kushnir, Determining the level of readiness of teachers to implementation of STEM-education in Ukraine, CEUR Workshop Proceedings 2393 (2019) 144–155. [18] Y. Shapovalov, V. Shapovalov, V. Zaselskiy, TODOS as digital science-support environment to provide STEM-education, CEUR Workshop Proceedings 2433 (2019) 232–245. [19] T. Kramarenko, O. Pylypenko, V. Zaselskiy, Prospects of using the augmented reality application in STEM-based Mathematics teaching, CEUR Workshop Proceedings 2547 (2020) 130–144. [20] T. Kramarenko, O. Pylypenko, I. Muzyka, Application of GeoGebra in Stereometry teaching, CEUR Workshop Proceedings 2643 (2020) 705–718. [21] L. Midak, I. Kravets, O. Kuzyshyn, J. Pahomov, V. Lutsyshyn, A. Uchitel, Augmented reality technology within studying natural subjects in primary school, CEUR Workshop Proceedings 2547 (2020) 251–261. [22] V. Shapovalov, Y. Shapovalov, Z. Bilyk, A. Megalinska, I. Muzyka, The Google Lens analyzing quality: An analysis of the possibility to use in the educational process, CEUR Workshop Proceedings 2547 (2020) 117–129. [23] Y. Shapovalov, V. Shapovalov, F. Andruszkiewicz, N. Volkova, Analyzing of main trends of STEM education in ukraine using stemua.science statistics, CEUR Workshop Proceedings 2643 (2020) 448–461. [24] N. Valko, N. Kushnir, V. Osadchyi, Cloud technologies for stem education, CEUR Workshop Proceedings 2643 (2020) 435–447. [25] S. Lytvynova, M. Medvedieva, Educational computer modelling in natural sciences education: Chemistry and biology aspects, CEUR Workshop Proceedings 2732 (2020) 532–546. [26] H. Kravtsov, A. Pulinets, Interactive augmented reality technologies for model visualization in the school textbook, CEUR Workshop Proceedings 2732 (2020) 918–933. [27] O. Ovcharuk, I. Ivaniuk, N. Soroko, O. Gritsenchuk, O. Kravchyna, The use of digital learning tools in the teachers’ professional activities to ensure sustainable development and democratization of education in european countries, E3S Web of Conferences 166 (2020) 10019. doi:10.1051/e3sconf/202016610019. [28] N. S. Ponomareva, Role and place of informatics in the training of future teachers of mathematics, Journal of Physics: Conference Series 1840 (2021) 012035. URL: https: //doi.org/10.1088/1742-6596/1840/1/012035. doi:10.1088/1742-6596/1840/1/012035. [29] V. V. Osadchyi, N. V. Valko, L. V. Kuzmich, Using augmented reality technologies for STEM education organization, Journal of Physics: Conference Series 1840 (2021) 012027. URL: https://doi.org/10.1088/1742-6596/1840/1/012027. doi:10.1088/1742-6596/1840/ 1/012027. [30] N. Balyk, I. Grod, Y. Vasylenko, V. Oleksiuk, Y. Rogovchenko, Project-based learning in a computer modelling course, Journal of Physics: Conference Series 1840 (2021) 012032. URL: https://doi.org/10.1088/1742-6596/1840/1/012032. doi:10.1088/1742-6596/1840/ 1/012032. [31] L. Y. Midak, I. V. Kravets, O. V. Kuzyshyn, L. V. Baziuk, K. V. Buzhdyhan, J. D. Pahomov, Augmented reality as a part of STEM-lessons, Journal of Physics: Conference Series (2021). [32] On approval of the regulation on the national educational electronic platform, 2018. URL: https://zakon.rada.gov.ua/laws/show/z0702-18. [33] Ukrinform.ua, The Digital School. Presentation of the concept of the national educational project, 2019. URL: https://www.ukrinform.ua/rubric-presshall/ 2713349-cifrova-skola-prezentacia-koncepcii-nacionalnogo-osvitnogo-proektu.html. [34] S. Amelina, R. Tarasenko, A. Azaryan, Information and technology case as an indicator of information competence level of the translator, CEUR Workshop Proceedings 2433 (2019) 266–278. [35] R. Tarasenko, S. Amelina, A. Azaryan, Integrated testing system of information competence components of future translators, CEUR Workshop Proceedings 2643 (2020) 376–391. [36] Z. Bakum, K. Morozova, Didactical conditions of development of informativecommunication competence of future engineers during master preparation, Metallurgical and Mining Industry 7 (2015) 164–167. [37] N. Balyk, Y. Vasylenko, G. Shmyger, V. Oleksiuk, A. Skaskiv, Design of approaches to the development of teacher’s digital competencies in the process of their lifelong learning, CEUR Workshop Proceedings 2393 (2019) 204–219. [38] I. Kholoshyn, O. Bondarenko, O. Hanchuk, E. Shmeltser, Cloud ArcGIS Online as an innovative tool for developing geoinformation competence with future geography teachers, CEUR Workshop Proceedings 2433 (2019) 403–412. [39] O. Burov, V. Bykov, S. Lytvynova, ICT evolution: From single computational tasks to modeling of life, CEUR Workshop Proceedings 2732 (2020) 583–590. [40] M. P. Leshchenko, A. M. Kolomiiets, A. V. Iatsyshyn, V. V. Kovalenko, A. V. Dakal, O. O. Radchenko, Development of informational and research competence of postgraduate and doctoral students in conditions of digital transformation of science and education, Journal of Physics: Conference Series 1840 (2021) 012057. URL: https://doi.org/10.1088/1742-6596/ 1840/1/012057. doi:10.1088/1742-6596/1840/1/012057. [41] A. Kharkivska, L. Shtefan, M. Alsadoon, A. Uchitel, Technology of forming future journalists- social information competence in Iraq based on the use of a dynamic pedagogical site, CEUR Workshop Proceedings 2643 (2020) 82–93. [42] H. Kravtsov, V. Kobets, Implementation of stakeholders’ requirements and innovations for ICT curriculum through relevant competences, CEUR Workshop Proceedings 1844 (2017) 414–427. [43] O. Kuzminska, M. Mazorchuk, N. Morze, V. Pavlenko, A. Prokhorov, Digital competency of the students and teachers in Ukraine: Measurement, analysis, development prospects, CEUR Workshop Proceedings 2104 (2018) 366–379. [44] S. Lytvynova, O. Burov, O. Slobodyanyk, The technique to evaluate pupils’ intellectual and personal important qualities for ict competences, CEUR Workshop Proceedings 2393 (2019) 107–177. [45] B. Kreminskyi, O. Martyniuk, Correlation between teaching methods and pedagogical technologies and their combination with information and communication technologies in physics education, in: Problem space of modern society: philosophical-communicative and pedagogical interpretations, volume 1, BMT Erida Sp. z o.o, Warsaw, 2019. [46] O. Prokhorov, V. Lisovichenko, M. Mazorchuk, O. Kuzminska, Developing a 3D quest game for career guidance to estimate students’ digital competences, CEUR Workshop Proceedings 2731 (2020) 312–327. [47] Y. Modlo, S. Semerikov, E. Shmeltzer, Modernization of professional training of electromechanics bachelors: ICT-based Competence Approach, CEUR Workshop Proceedings 2257 (2018) 148–172. [48] M. Moiseienko, N. Moiseienko, I. Kohut, A. Kiv, Digital competence of pedagogical university student: Definition, structure and didactical conditions of ormation, CEUR Workshop Proceedings 2643 (2020) 60–70. [49] Y. Nosenko, A. Sukhikh, The method for forming the health-saving component of basic school students’ digital competence, CEUR Workshop Proceedings 2393 (2019) 178–190. [50] O. Ovcharuk, Attitude of ukrainian educators toward the use of digital tools for teaching and professional development: Survey results, CEUR Workshop Proceedings 2732 (2020) 746–755. [51] S. Shokaliuk, Y. Bohunenko, I. Lovianova, M. Shyshkina, Technologies of distance learning for programming basics on the principles of integrated development of key competences, CEUR Workshop Proceedings 2643 (2020) 548–562. [52] N. Soroko, L. Mykhailenko, O. Rokoman, V. Zaselskiy, Educational electronic platforms for STEAM-oriented learning environment at general education school, CEUR Workshop Proceedings 2643 (2020) 462–473. [53] A. M. Striuk, S. O. Semerikov, I. V. Tarasov, Bachelor of informatics competence in programming, Information Technologies and Learning Tools 46 (2015) 91–108. URL: https://journal.iitta.gov.ua/index.php/itlt/article/view/1225. doi:10.33407/itlt.v46i2. 1225. [54] S. Symonenko, V. Osadchyi, S. Sysoieva, K. Osadcha, A. Azaryan, Cloud technologies for enhancing communication of it-professionals, CEUR Workshop Proceedings 2643 (2020) 225–236. URL: http://ceur-ws.org/Vol-2643/paper12.pdf. [55] R. Tarasenko, S. Amelina, A. Azaryan, Features of the use of cloud-based translation systems in the process of forming information competence of translators, CEUR Workshop Proceedings 2433 (2019) 322–335. [56] I. Trubavina, S. Dotsenko, O. Naboka, M. Chaikovskyi, H. Meshko, Developing digital competence of teachers of humanitarian disciplines in the conditions of COVID-19 quarantine measures, Journal of Physics: Conference Series 1840 (2021) 012052. URL: https: //doi.org/10.1088/1742-6596/1840/1/012052. doi:10.1088/1742-6596/1840/1/012052. [57] K. Vlasenko, O. Chumak, I. Sitak, O. Chashechnikova, I. Lovianova, Developing informatics competencies of computer sciences students while teaching differential equations, Espacios 40 (2019). [58] V. Yahupov, V. Kyva, V. Zaselskiy, The methodology of development of information and communication competence in teachers of the military education system applying the distance form of learning, CEUR Workshop Proceedings 2643 (2020) 71–81. [59] N. V. Morze, V. P. Vember, M. A. Gladun, 3D mapping of digital competency in Ukrainian education system, Information Technologies and Learning Tools 70 (2019) 28–42. URL: https://journal.iitta.gov.ua/index.php/itlt/article/view/2994. doi:10.33407/itlt.v70i2. 2994. [60] S. Carretero, R. Vuorikari, Y. Punie, DigComp 2.1: The Digital Competence Framework for Citizens with eight proficiency levels and examples of use, Publications Office of the European Union, Luxembourg, 2017. doi:10.2760/38842. [61] O. Merzlykin, I. Topolova, V. Tron, Developing of key competencies by means of augmented reality at clil lessons, CEUR Workshop Proceedings 2257 (2018) 41–52. [62] H. Tereshchuk, I. Kuzma, O. Yankovych, H. Falfushynska, The formation of a successful personality of a pupil in ukrainian primary school during media education implementation, CEUR Workshop Proceedings 2433 (2019) 145–158. [63] T. Goncharenko, N. Yermakova-Cherchenko, Y. Anedchenko, Experience in the use of mobile technologies as a physics learning method, CEUR Workshop Proceedings 2732 (2020) 1298–1313. [64] H. M. Meshko, N. V. Habrusieva, A. A. Kryskov, Research of professional responsibility of students of technical specialities by means of information and communication technologies, Journal of Physics: Conference Series 1840 (2021) 012058. URL: https://doi.org/10.1088/ 1742-6596/1840/1/012058. doi:10.1088/1742-6596/1840/1/012058. [65] Key data on learning and innovation through ict at school in europe, 2012. URL: http: //eacea.ec.europa.eu/education/eurydice/documents/key_data_series/129EN.pdf. [66] N. Balyk, H. Shmyher, Methodology of digital competence formation in the context of digital content development, Physical and Mathematical Education 2 (2018) 8– 12. URL: http://fmo-journal.fizmatsspu.sumy.ua/journals/2018-v2-16/2018_2-16-Balyk_ Shmyher_FMO.pdf. doi:10.31110/2413-1571-2018-016-2-001. [67] V. Baryakhtar, F. Bozhinova, O. Kiryukhina, Physics. 10th grade, Ranok, Kharkiv, 2018.
URI (Уніфікований ідентифікатор ресурсу):	http://ceur-ws.org/Vol-2879/paper20.pdf http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/4446 https://doi.org/10.31812/123456789/4446
ISSN:	1613-0073
Розташовується у зібраннях:	Збірники наукових праць та матеріали конференцій

Файли цього матеріалу:

Файл	Опис	Розмір	Формат
paper20.pdf	article	2.21 MB	Adobe PDF	Переглянути/Відкрити

Показати повний опис матеріалу Перегляд статистики

Усі матеріали в архіві електронних ресурсів захищені авторським правом, всі права збережені.