The article deals with teachers’ training to the use of digital tools of formative assessment. The authors analyze a number of legal documents in the field of education, which emphasize the introduction of formative assessment in the practice of assessment of primary and basic school pupils. Formative assessment is defined as the assessment to identify learning needs and traces each student’s progress, it is carried out on a constant basis and aims to support, stimulate, motivate to learn. The important features of this type of evaluation are criterion, interactivity, consistency. The components of formative assessment are peer assessment, self-assessment, observation, development of logic goals and criteria for their achievement, feedback.The programme of advanced training for teachers of different profiles, deputy heads of educational work on the topic ``Theory and Practice of Application of Formative Assessment at a Primary School'' was presented. The experience of such programme in advanced training courses at Municipal Higher Educational Establishment “Kherson Academy of Continuing Education of Kherson Regional Council” is presented.The authors describe a pedagogical experiment conducted on the basis of Municipal Higher Educational Establishment “Kherson Academy of Continuing Education of Kherson Regional Council” on the use of digital tools during formative assessment. The experiment covered 162 primary school teachers who were trained under that program. During the practical classes, teachers worked with such digital tools as MentiMeter, Plickers, Kahoot, Poll Everywhere. The results of the survey showed the relevance of the course and the need for its implementation in postgraduate pedagogical education for teachers who will teach at the New Ukrainian School.
Immersive technologies and, in particular, augmented reality (AR) are rapidly changing the sphere of education, especially in the field of science, technology, engineering, arts and mathematics. High- quality professional training of a future mathematics teacher who is able to meet the challenges that permeate all sides, the realities of the globalizing information society, presupposes reliance on a highly effective learning environment. The purpose of the research is to transform the traditional educational environment for training future mathematics teachers with the use of the GeoGebra AR dynamic mathematics system, the introduction of cloud technologies into the educational process. The educational potential of GeoGebra AR in the system of professional training of future mathematics teachers is analyzed in the paper. Effective and practical tools for teaching mathematics based on GeoGebra AR using interactive models and videos for mixed and distance learning of students are provided. The advantages of the GeoGebra AR dynamic mathematics system are highlighted. The use of new technologies for the creation of didactic innovative resources that improve the process of teaching and learning mathematics is presented on the example of an educational and methodological task, the purpose of which is to create didactic material on the topic “Sections of polyhedra”. While solving it, future teachers of mathematics should develop the following constituent elements: video materials; test tasks for self-control; dynamic models of sections of polyhedra; video instructions for constructing sections of polyhedra and for solving basic problems in the GeoGebra AR system. The article highlights the main characteristics of the proposed educational environment for training future mathematics teachers using the GeoGebra AR dynamic mathematics system: interdisciplinarity, polyprofessionalism, dynamism, multicomponent.
The aim of the study is to build a model for the introduction of STEM education in institutions of general secondary education, to demonstrate the experience of using ICT in STEM education. Research objectives: to determine the role and place of information and communication technologies in the model of introduction of STEM education in general secondary education institutions for the formation of key competencies; to find innovative solutions to create conditions that will promote the interest of student youth in the choice of STEM professions. Object of research: the model of the introduction of STEM education in institutions of general secondary education Subject of research: information and communication technologies in the model of introduction of STEM education in institutions of general secondary education as a component of the school educational environment. Analysis of scientific publications makes it possible to determine the role and place of ICT in the model of introduction of STEM education in general secondary education institutions. The presented experience of the systemic implementation of STEM education in general secondary education institutions allows the formation of professional competencies of teachers in the field of STEM education and can be useful in their professional activities. The study shows that the systemic implementation of STEM technologies in the educational process increases the effectiveness of training, the level of motivation of participants in the educational process and the quality of knowledge in the subjects of the natural science cycle, and also contributes to the formation of key competencies of students.
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