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1 | The article provides the first presentation of the activity of the Centre for supplementary physical and mathematical education as a model of integration of general and supplementary education, which is implemented at pedagogical university. The article provides the models’ scheme, which is presented by the multilevel interconnections with schools and non-school partners. The article shows that the model provides the filling of the order for extracurricular activities and a spectrum of supplementary education programs. The work proves that the important elements of the model are the new approach to pre-service teachers’ practical training sessions; further education courses aimed at the creation of developmental educational texts, teaching and learning tasks, which provide the creation of variable and enriched educational space. The work shows that the model facilitates the achievement of relevant results by teachers and pupils in teaching and learning physics and mathematics, implementation of new networking projects in supplementary physical and mathematical education. Keywords: physical and mathematical education, supplementary education, integration, school, centre for supplementary education | 940 | ||||
2 | This publication reflects the formation of a teacher, scientist and successful manager in the system of pedagogical education, Professor of Tomsk State Pedagogical University Vladimir Mikhailovich Zelichenko, who recently passed away. The author reveals its role in the development of additional physical and mathematical education of schoolchildren in Tomsk and its significant contribution to improving the level of training of modern teachers. It reflects his own growth as a physicist during his work at Tomsk State University and the Siberian Institute of Physics and Technology, organizational success in opening the second physics and mathematics school in Siberia, after Novosibirsk, for students, pedagogical views on teacher training and their implementation in practice at Tomsk State Pedagogical Institute, and then at the University. The main directions of scientific activity of V. M. Zelichenko are presented. He developed the theory of education, based on the evolutionary-synergetic paradigm, and applied issues of scientific and methodological support of physical and natural science education. In this direction, he developed new approaches to both the preparation of future teachers for teaching natural science disciplines, and to improving the qualifications of subject teachers. V. M. Zelichenko proved a number of minimal theorems as applied to excited states of atomic systems. He has constructed a unique technique for the minimax calculation of excited states. V. M. Zelichenko made a contribution to the study of the phenomena of photoionization of many-electron atoms. New approaches to the study of fullerenes are formulated. Keywords: teaching physics at school, teaching physics at a university, training a physics teacher, a systematic approach to education | 657 | ||||
3 | The problem of the development of the cognitive activity of schoolchildren and its active application is posed. The solution to this problem is associated with the development of the cognitive interest of students at the age when they begin to study physics. The cognitive activity of students of this age in teaching physics is associated with the development of such mental operations as understanding, logical thinking and depends on the level of their development. The organization of active cognitive activity of schoolchildren in the classroom, in the process of which the ability to understand the presented material is formed, cognitive interest develops and logical thinking requires special methods and a certain organization of lessons, which is currently not sufficiently developed. It is proposed to do this on a system of problematic lessons. Using the example of a specific development of one of these physics lessons, it is shown that the involvement of schoolchildren in solving problems in the classroom and the use of a set of methods and techniques that allow them to be solved, activates mental activity and cognitive abilities. Heuristic conversation, the inclusion of some students in practical activities and interactive observation are used as methods and techniques. It analyzes how it is possible to organize a heuristic conversation when conducting problem lessons, and what types of questions to use in the framework of the conversation, how to organize the practice. The success of the proposed methods for the development of the cognitive activity of schoolchildren is confirmed by specific quantitative data on the development of the cognitive interest of 7th and 8th grade students: the level of participation in heuristic conversation, the complication of the nature of the questions that involve in the conversation, as well as the readiness for reflection and self-development. Keywords: cognitive activity, ways of enhancing learning, problem lesson, heuristic conversation, chamomile of questions, assessment of enhancing cognitive activity | 943 | ||||
4 | The modern educational process of secondary school students is largely built on the basis of an activity-based and competence-based approach. One of the tasks of a modern teacher is the assimilation by students in the process of active learning for life of competencies. The analysis of their processes showed that it is still insufficiently studied, there are practically no practical examples of working with competencies. Sufficiently demanded for the development of students and building a useful life are regulatory and cognitive competence. These competencies can be actively formed in the process of teaching physics. The process of developing competencies becomes more effective, as the authors found, if it is built gradually. Formation begins with universal actions that are part of the competencies, which are for the majority identified. For preliminary formation, on the basis of practice, complex actions are highlighted - the student drawing up a plan of educational activity, its adjustment; formulation of causeand- effect relationships in phenomena, processes, reflexive action. The formation of actions is organized on the basis of the implementation by students in groups of mini-projects for the design of actions. An example of the formation of an element of regulatory competence is shown - the action of drawing up a plan for studying new material. Group work is guided based on the teacher’s questions to build the action. Then an intergroup discussion of the results of the work of the groups with the participation of the teacher is organized, and its adjustment. Initially built action, an element of competence is offered for development. With the help of the teacher, there is a reflexive comprehension of the activity of building the action and its appropriation. The development of elements of cognitive competence is built in a similar way. The presented methods of consistent active-activity, project-based formation of competencies are productive and can be widely used in education. Keywords: regulatory, cognitive competences, universal learning activities, project technology, teaching physics | 502 |