Wyniki wyszukiwania - Biblioteka Nauki

1

Effective integration of educational technologies in terms of TPCK framework at technical university

100%

Lavrysh Y.

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2019

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tom 6(2)

33-39

EN

The framework of Technological Pedagogical Content Knowledge (TPCK) has been developed as a valuable tool for understanding the ways for effective technology use in the teaching process. Due to continuous innovations in education technologies, educators experience some difficulties how to implement the appropriate technology and correlate it with learning goals, students’ needs, content of the subjects and pedagogical strategy. It caused the separation of the educational technology and situational educational process. TPCK framework can bridge the gap and promotes how to combine classical pedagogical strategies and contemporary technologies. This study focuses on the description and analysis of practical TPCK framework implementation at English Language classes for bachelors at technical university. The paper suggest examples of redesigned learning activities according to TPCK framework concepts in order to enhance students’ language skills. The results of the practical implementation observations and students’ as well as teachers’ reflective blogs demonstrated the benefits and challenges of the approach. Students’ feedback evidenced the meaningful impact on their academic achievements and improvement of language competence. Moreover, the described tool can be used as an indicator to assess teachers’ knowledge of content, pedagogy and level of digital competence in terms of the professional development.

2

Peer Assessment in Higher Education. A Case Study

100%

Ruiz Palmero J. , Sánchez Rodríguez J.

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tom 27

247-255

EN

The need to use other grading methods that will help to certify and/or qualify teachers’ grades in extensive groups of students led us to implement peer assessment. Our research was carried out over the last two years, and the students assessed one of the practices among themselves, using one of the tools from a virtual teaching platform. Their grades were subsequently analysed to see if they showed similar results to the teachers’ grades, by means of a correlation analysis. The high correlation found suggests that teachers could take the students’ grading into account if necessary.

3

МУЛЬТИМЕДІЙНІ ТА ІНТЕРНЕТ-ТЕХНОЛОГІЇ В МОВНІЙ ПРОФЕСІЙНІЙ ПІДГОТОВЦІ МАЙБУТНІХ УЧИТЕЛІВ ІНОЗЕМНОЇ МОВИ В США

100%

Білецька І.

Педагогічні науки: теорія, історія, інноваційні технології

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2015

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nr 4(48)

39-49

EN

The aim of our article is to analyze different approaches of American scientists to the interpretation of the concept of «educational technology», underscoring the focus on multimedia and Internet-technologies, which become the first priority in professional language training of future foreign language teachers in the USA. In our opinion this experience is worthy of deep study and implementation into Ukrainian system of education. The goal of the study is facilitated by the use of the following methods: study, analysis and synthesis of pedagogical literature, synthesis, comparison, classification. The pedagogical purpose of using multimedia technology in foreign language teachers training is determined by the possibility of implementing intensive forms and methods of training, strengthening its motivational component through application of modern techniques of processing of audiovisual information, improve emotion perception, skills to implement various forms of self-employment in its processing. American teachers believe that the use of multimedia training programs in the process of foreign language education contributes to the formation of interest in the knowledge that, in turn, affects the activation and focus students when learning a foreign language. Internet technologies play a very important role and vast base for foreign language education, for realizing professional and personal interests and needs of future foreign language teachers. The application of characterized Internet technologies in the process of professional future foreign language teachers training opens to the teachers the opportunity for individual work with each student. And the students, in turn, have available training materials (authentic texts, audio and video), which provide a much higher level of perception of foreign language information. In American literature five types of educational Internet-resources can be fined: hotlist, multimedia scrap-book, treasure hunt, subject sampler and webquest. Further research could be the study of interactive, project and other types of technologies in linguistic training of foreign language teachers in the United States.

4

ТЕХНОЛОГІЧНА СКЛАДОВА РОЗВИТКУ ПРОФЕСІЙНОЇ КУЛЬТУРИ КЕРІВНИКА ПОЗАШКІЛЬНОГО НАВЧАЛЬНОГО ЗАКЛАДУ В СИСТЕМІ ПІСЛЯДИПЛОМНОЇПЕДАГОГІЧНОЇ ОСВІТИ

86%

Наумчук І.

Педагогічні науки: теорія, історія, інноваційні технології

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2015

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nr 8(52)

164-170

EN

On the basis of theoretical and empirical analysis of the main conditions for the creation of technologies, methodological requirements for the development of the process, the criteria for manufacturability are analyzed. The scientific substantiation of technology of development of professional culture of the heads of the out-of-school education institutionsin postgraduate pedagogical education as a system of logically sound operations aimed at achieving a certain goal diagnostically is given. The content and structural characteristics of the technology of professional culture of the head of the out-of-school education institutionsin the system of postgraduate education, methods of implementation of the process in terms of courses in management and inter-evaluation period are revealed. Meaningful implementation of the concept of “technology” reflects the focus of research, including teaching, radical improvement of human activity, increasing its effectiveness, instrumentality, and technicality. Understanding the technology as a scientific description of the means and methods of pedagogical process, which leads to the planned expected results, helped design the process of development of a professional culture of the head of the out-of-school education institutionsin the system of postgraduate education, which is based on a clearly defined diagnosed purpose, its means of implementation, broken down into the constituent elements of the process of achieving the projected results. In general, this technology is presented as a succession of states, stages of development, a set of actions necessary for the system of purposeful activity of employees of institutions of postgraduate education for the development of professional culture of heads of the out-of-school education institutions. Implementationofthe technology of developmentofprofessionalculture of the heads of the out-of-school education institutionsinpostgraduateeducationwill become the resource of itsmodernization.

5

ДИТЯЧЕ ЕКСПЕРИМЕНТУВАННЯ: РЕАЛІЇ ТА ПЕРСПЕКТИВИ

86%

Ірина К. , Світлана Б.

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nr 9(63)

39-49

EN

This article analyzes the peculiarities of the implementation of practice of making science experiments by children into the practical activity of pre-schools, providing update preschool education at present and promoting the harmonious development of the child’s personality. To achieve the purpose of the article, there has been used an analysis of psychological and pedagogical, and methodological literature on the issue, which showed that the establishing experimental activity has deep historical roots. Since, at various stages in the development of science psychologists, educators, physicians and physiologists have made invaluable contributions to the disclosure of the phenomenon of the experimental work. Thus, they considered the patterns of mastering it by children, its impact on the development of pupils and improving the quality of the educational process in the preschool establishment. It should be emphasized that the numerical amount of educational views, practical and methodological recommendations for making science experiments by children is relevant and appropriate for the present. The authors have analyzed the current scientific works containing the interpretation of the terms “carrying out experiments by children”, “educational technology”, “research activities”. The article highlights the theoretical and methodological aspects of the organization of carrying out experiments by children as educational technology in preschool education. The authors reveal the meaning, content and structure of conducting, methods and forms of research and experimental activities of preschool children, in nature in particular; they also show that specially organized research activities allow children to obtain information about objects or phenomena studied, and the teacher to make learning maximum efficient, satisfying the natural curiosity of preschoolers and developing their cognitive activity. It’s been determined that in terms of accessibility and rational use carrying out an experiment by children should be considered as sensible and practical activities, and a set of relationships between a child and the material world. In addition, practical transformation of nature, its objects and certain phenomena largely assumes the character of experimenting.

6

Praktyka matematyczna a nowe technologie edukacyjne

86%

KANDZIA J.

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nr 2

57-64

PL

W artykule zwrócono uwagę na zmiany zachodzące w edukacji matematycznej pod wpływem ekspansji nowych technologii edukacyjnych. Przedstawiono analizę wyników ankiety dotyczącej wykorzystania ich w praktyce pedagogicznej (w nauczaniu matematyki). Opis projektu – „Nowe metody nauczania w matematyce”. Rozwój technologii edukacyjnych i kreowane metody zbierania i dystrybuowania informacji otwierają drogę do alternatywnych form kształcenia w społeczeństwie wiedzy. Oddają one nieocenione zasługi w rozpoznawaniu, zgłębianiu i konstruktywnym wypracowaniu rozwiązań problemów w różnych dziedzinach naszego życia. Matematyka, informatyka, komputery są w dużej korelacji, zarówno współcześnie, jak i historycznie. Nowe technologie zmieniają styl nauczania i uczenia się matematyki.

EN

The article is about changes in teaching mathematics under the influence of expansion of new educational technologies. Presents an analysis of the results of the questionnaire form concerning exploiting them in practice pedagogic (in teaching mathematics). Project description – „New Methods of Teaching in Mathematics”. Development of education technologies together with new methodologies of gathering and distributing information opens alternative forms of education in an educated society. They have been providing substantial contribution to identification, exploration and constructive solutions to various questions of our lives. Mathematics, information technology, computers – remain in strict correlation both now and in the past. New technologies have been changing the style of teaching and learning mathematics.

7

Rzeczywistość rozszerzona w edukacji przełomu dekad: 2019-2021

86%

Topol P.

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nr 62

61-75

EN

The aim of the article is an attempt to analyze the use of Augmented Reality in educational applications over the last few years. The first part is devoted to defining the concept more precisely, because AR may seem ambiguous. The second part of the article introduces selected educational applications of AR in different subjects or teaching/learning, e.g. in science/mathematics, natural science or in language learning. Research projects for applications in various teaching solutions will also be referenced. The third and final part contains a brief review of AR literature in recent years.

8

Modern Educational Technologies in Ukrainian High School

86%

MYKHAYLISHYN H. , LUTSAN N. , KONDUR O.

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nr 4

74-79

EN

The article deals with the problem of modern educational technologies in higher education. The general situation of establishment the modern educational technologies in Ukraine is outlined, which should contribute to the general development of the personality, the formation of ideological culture, individual experience, and creativity. The basic concept of „educational technology”, „learning technology”, „pedagogical technology” are analyzes. The attention is focused on the use of educational technology at the present stage in the learning process that significantly effects on the quality of training of qualified specialists.

9

Backstaging the teacher: On learner-driven, school-driven and data-driven change in educational technology discourse

86%

Macgilchrist F.

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nr 2

83-103

PL

As digital technologies become more prominent in schools, and a host of new media products appear in classrooms, critical questions are being asked about the erasure of power and politics in contemporary education. To explore the discourse on digital education, this paper draws on discourse analysis of ethnographic interviews with for-profit and non-profit organizations in the field. It asks (i) what industry insiders describe as driving change in contemporary educational technology (edtech), and (ii) whether new actors/technologies shaping a novel educational hegemony, and if so, what this hegemony looks like. Initial findings suggest that while the teacher was seen as key to driving change in printed educational materials, three different discourses appear when describing change in today’s educational technology. In the first, learners drive change; the focus lies on the individual dimension. In the second, schools drive change; the systemic dimension. In the third, data drive change; the analytics dimension. Linking these three discourses is a shift from “education” to “learning”. The accounts of educational technology simultaneously advocate for improving opportunities for all students, especially weaker or disadvantaged learners, and also strengthen the hegemonic shift across policy and practice towards an instrumental understanding of education. Overall, the paper suggests that power and politics are by no means erased from the edtech industry’s accounts of digital technologies and datafication. The socio-material affordances engineered into the technologies invite particular teaching practices and thus affect power relations in education.

10

EDUCATIONAL TECHNOLOGY AS A FACTOR IN IMPROVING THE TRAINING OF STUDENTS

72%

Kalisheva N.

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nr 3

38-52

EN

This paper discusses important aspects of informational support in the society and education in the international community and Kazakhstan. Experience in the development and maintenance of technology and training of students have been analyzed and summarized, the model and the pedagogical system of remote-loan training technology have been proposed. Technological support of training requires integration of advanced technologies for effective organization and management of educational process. In the current situation, these are distance and credit technology of training, the synthesis of which will provide better training of future specialists.

11

Využití moderní didaktické techniky ve výuce

72%

Miroslava M.

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nr 2

109-109

XX

Zásada názornosti je jedním z fundamentálních principů. Prostřednictvím zrakových vjemů jsou vytvářeny představy a osvojovány pojmy a vztahy na základě vnímání předmětů, jevů nebo jejich zobrazení. Nezastupitelnou roli v tomto procesu sehrává moderní didaktická technika, jakou je vizualizér a interaktivní tabule.

EN

The visualization rule belongs to some of the most fundamental principles. Through visual presentation the ideas are created and the terms are adopted on the basis of perception of the presented objects and events. In this process, the modern didactic tools, such as the visualizer/presenter or the interactive blackboard, play their essential roles.

12

Stan wdrożenia technologii twórczej w uczeniu się przez sytuacje w placówkach oświatowych

72%

Osadchenko I.

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nr 1

EN

Proceeding from the literature review and empirical material, the article describes the creative technology method of situation studying implementation into Ukrainian higher pedagogical educational institutions. It was concluded that the creative technology of situation studying in the training of future teachers is used in Ukrainian higher educational institutions fragmentarily. That is in the form of a single and non-systematic use of specific situation analysis method and the actual absence of the case method use. At the same time, the use predominantly appears in the conditions of traditional education, when the pedagogical situation analysis is done by a teacher or an individual student, and discussions, common acceptance and decision justifiation do not occur. The survey identifid that the elementary application level of the indicated educational technology is caused by lack of teachers’ psychological and didactic preparation for this process.

PL

W artykule, w oparciu o analizę źródeł naukowych i materiału empirycznego, scharakteryzowano metodę wprowadzania kształcenia kreatywnego na uczelniach pedagogicznych na Ukrainie. Stwierdzono, że twórcza technologia uczenia się sytuacyjnego w przyszłych szkoleniach dla nauczycieli jest fragmentarycznie wykorzystywana w instytucjach szkolnictwa wyższego Ukrainy. Jest to realizowane w formie pojedynczego i niesystematycznego zastosowania metody analizy konkretnych sytuacji oraz faktycznego braku zastosowania metody przypadków. Jednocześnie odbywa się to przede wszystkim w warunkach tradycyjnej edukacji, podczas gdy analiza sytuacji pedagogicznej jest przeprowadzana przez nauczyciela lub studenta, a dyskusja czy akceptacja grupy i uzasadnienia decyzji nie występują. Ponadto należy wskazać, że elementarny poziom zastosowania wskazanej technologii uczenia się jest spowodowany nieprzygotowaniem psychodydaktycznym nauczycieli do tego procesu.

13

READINESS TO INNOVATIVE ACTIVITY IN THE PROCESS OF PEDAGOGICAL PRACTICE AS AN IMPORTANT PROFESSIONAL QUALITY OF FUTURE TEACHERS

72%

Калюжна Т. , Радченко Ю.

Педагогічні науки: теорія, історія, інноваційні технології

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2015

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nr 3(47)

354-360

EN

The article deals with the theoretical bases of forming the future teacher readiness for innovative educational activity in the process of pedagogical practice. Nowadays the readiness to innovative educational activity is one of the most important qualities of a teacher and the factor of his successful professional activity. The aspects of teacher readiness are considered to innovative activity taking into account modern priorities of education. Teacher’s readiness to development, testing and implementation pedagogical innovation in the educational process appears as a necessary component of their professional readiness. The term «readiness to innovative educational activity» is defined as a personal and professional quality, characterized by awareness of the importance and students’ interests to the training and educating pupils on the basis of innovation; presence of motivation while obtaining special knowledge, skills, which are embodied in the organization of educational work; requirements to creative self-actualization and self-realization. It has been found that teaching practice develops the students’ creativity and independence, promotes them as socially active individuals with innovative potential. The structural components of readiness to innovative educational activity are characterized. Readiness to innovate activity is an integral quality of the individual, and it is characterized by a certain degree of formation of motivational, cognitive, creative, reflective and technological components in their unity, which is manifested in the desire to innovative educational activity, in readiness for its implementation at the professional level. The pedagogical conditions of students’ readiness forming to innovative educational activity during teaching practice are determined. The formation of teachers’ readiness to innovative activity is a process that allows the teacher to help in the developing of his values and humanistic orientation, awareness of solving methodology vocational and educational problems, the specific concepts, the ways to implement the conceptual schemes of experience; understanding his results of pedagogical innovations, criteria development of their evaluation and self-esteem.

14

Sztuczna inteligencja – nowe wyzwanie edukacyjne

44%

Kuruliszwili S.

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nr 605(10)

28-40

EN

Rapid development of Artificial Intelligence is influencing most of the human’s domains. It impacts our reality in quantitative and qualitative way. This situation is challenging, also for the educational system – in many aspects. Analysis of this situation in the educational context is important and urgent matter. In the article author is attempting to explain and to structure the problem, pointing out, both chances and the threats, of the phenomenon, focusing on the area of educational content the measures.

PL

Artykuł stanowi próbę wyjaśnienia i uporządkowania kwestii związanych z konsekwencjami, jakie generuje rozwój sztucznej inteligencji (SI) dla systemu nauczania. Pojawienie się SI implikuje zmiany zarówno ilościowe jak i jakościowe. Dotykając wielu obszarów życia stanowi wyzwanie zarówno dla całego systemu edukacji. Analiza tego zjawiska w kontekście koniecznych zmian edukacyjnych stanowi ważny i pilny problem. Podejmując go, autor wskazuje na zagrożenia i szanse zarówno w obszarze sposobów jak i treści nauczania, a także samokształcenia. Poprzedzająca działanie refleksja, w tym zakresie, wydaje się warunkiem koniecznym dla właściwej adaptacji systemu nauczania do nowej dynamicznej rzeczywistości.