Structures and Models Formation of Scientific Competencies of Students in the Process of Continuous Vocational Education
DOI:
https://doi.org/10.61841/hk2haf87Keywords:
Research Competence, Professional Education, Experimental Work, Forming an Experiment, Pedagogical Conditions.Abstract
This article presents the results of the study, which was conducted on the basis of Nosov Magnitogorsk State Technical University. The theoretical foundations of the formation of research competencies of students in the process of continuing professional education are outlined. In the process of conducting experimental work, a model was developed for the formation of students' research competencies, the requirements for the development of which are presented in the article. The pedagogical conditions for the effective formation of students' research competencies, the stages of continuing education are given and thoroughly substantiated. The proposed methodology was developed taking into account the selected principles and levels of research competencies of students, given in the article and corresponds to different stages of training. At the same time, the methodology for the formation of research competencies of students in the process of continuous professional education has a certain structure: the goal, the participants (teachers and students), the learning process in the NGO process and the result. Studies show that distance learning is of the greatest interest for professional development. Therefore, the article pays special attention to distance learning and innovative teaching methods that affect the final result of the experiment, which is given in the form of tabular data.
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[1] Fomina, Zh.V., Kulakova A.B., Sokolova D.V. “Research activities of students in the formation of key
competencies”, In the world of scientific discoveries, 1-1 (61), pp. 693-703, 2015.
[2] Fatykhov, M.A. Khazieva, G.R. “Formation of professional competencies in students through research
activities”, The role of innovation in the transformation of modern science: a collection of articles of the
International Scientific and Practical Conference: in 6 parts, pp. 186-192, 2017
[3] M.M.Gladysheva, “Formation of research skills of future software engineers in the process of their
professional activities”, Candidate thesis, Magnitogorsk, 2008.
[4] M.M. Gladysheva, E.A. Ilina, A.V. Polschikov, S.S. Kolosok, E.A. Pykhov,”Formation of research
competencies of students in the process of continuing professional education”. Research Report No. P2565
of November 25, 2009 (Federal Agency for Education).
[5] Gladysheva M.M., Sadykova A.R., Makarova A.P. “Analysis of accounting coursework of the department
of the university”, Ab ovo ... (From the very beginning ...), Magnitogorsk, pp. 99-103, 2017.
[6] D. Kh. Devyatov, M.M. Gladysheva “Research work of future software engineers in the process of their
professional training: studies. Allowance”, Ministry of Education and Science of the Russian Federation,
Federal Agency for Education, State. Educational institution of higher. Prof. of education "Nosov
Magnitogorsk State Technical University". Magnitogorsk, 2006.
[7] Sadovskaya, E.I. “Research and project work as a condition for the formation of students' professional
competencies”, Economy and Society, 3-3 (16), pp. 429-432, 2015.
[8] Lavrentyeva, Yu. S. “Formation of key competencies of students through the use of elements of design and
research activities”, Science, education, society: problems and prospects for development: a collection of
scientific papers on the materials of the International Scientific and Practical Conference, pp. 92-94, 2014.
[9] Educational portal NMSTU. [Electronic resource]. URL: http://newlms.magtu.ru/report/increased_grant
(appeal date 12.06.2018).
[10] O.S. Logunova, M.M. Gladysheva, Yu. B. Kukhta, L.G. Egorova, M.V. Zaretsky “The organization of
practices for students of the direction”, "Computer Science and Computing": study guide, Magnitogorsk,
2018.
[11] Areepattamannil, S., Santos, I.M. “Adolescent students’ perceived information and communication
technology (ICT) competence and autonomy: Examining links to dispositions toward science in 42
countries”, Computers in Human Behavior 98, pp. 50-58.
[12] Cheng, V.M.Y. “Developing individual creativity for environmental sustainability: Using an everyday
theme in higher education”, Thinking Skills and Creativity 33, 100567.
[13] Buil, I.,Catalán, S.,Martínez, E. “Encouraging intrinsic motivation in management training: The use of
business simulation games”, International Journal of Management Education 17(2), pp. 162-171.
[14] Shtal, T.V., Lytovchenko, I., Poliakova, H.A. Development of professional competency of managerial staff
on the basis of acmeological approach. Journal of Advanced Research in Law and Economics 9(4), pp.
1481-1488
[15] Krasnoshchekova, S., Kashleva, K. Narrative Competence of Adult L2 Russian Learners Journal of
Psycholinguistic Research 48(3), pp. 617-641.
[16] van Ginkel, S., Gulikers, J., Biemans, H., (...), van Halteren, M., Mulder, M. “Fostering oral presentation
competence through a virtual reality-based task for delivering feedback”, Computers and Education 134,
pp. 78-97.
[17] Demssie, Y.N., Wesselink, R., Biemans, H.J.A., Mulder, M. “Think outside the European box: Identifying
sustainability competencies for a base of the pyramid context”, Journal of Cleaner Production 221, pp.
828-838.
[18] Arnold, J.C., Boone, W.J., Kremer, K., Mayer, J. “Assessment of competencies in scientific inquiry
through the application of rasch measurement techniques”, Education Sciences 8(4),184.
[19] O.S. Logunova, N.S. Sibileva, V.V Pavlov “Intellectual Support in Structuring Batch within an Arc
Furnace”, Steel in Translation Vol. 46, Issue 10, 1 October 2016, pp. 733-738.
[20] Y. Somova, E. Moskvina, M. Gladysheva, E. Gasanenko, A. Goncharov, M. Sartakov, S. Krasnikov, L.
Prokhasko “Mathematical modeling development of medium flow in rotary-pulse device channels”,International Journal of Engineering and Advanced Technology. Volume 8, Issue 4, April 2019, Pages 90-
99
[21] Y. Somova, E. Degodia, M. Gladysheva, T. Zueva, A. Peryatinskiy, O. Ilyina, G. Valyaeva, A.
Yaroslavtsev, A. Pelageina, M. Rebezov. “Sludge deoiling of bottom sediments laboratory installation for
carrying out automated scientific research”, International Journal of Mechanical Engineering and
Technology, 9. 5, pp. 498-505, 2018.
[22] M. Gladysheva, Yu. Somova, E. Ilina, A. Kalchenko, A. Koldin, E. Gasanenko, N. Dyorina, T.
Kashchenko, G. Yulina “Results of experimental work at different stages of continuous education for
estimation of the formation of research competences of students”, Journal of Advanced Research in
Dynamical and Control Systems, Volume 11, Issue 9 Special Issue, 2019, Pages 569-574.
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