CONTENT-CONTEXT MODEL OF TEACHING MATHEMATICS IN ECONOMIC UNIVERSITY
Abstract and keywords
Abstract (English):
Introduction: A competent specialist for the digital economy must have applied mathematical methods and computer technology, as well as professional skills The paper proposes an integrative model of learning mathematics at the Computer Workshop for students-economists in the Bachelor. The authors for the fi rst time use two technologies within one model: contextual and content, and expand opportunities of content training, applying it in an unconventional form. Materials and methods: The main research method is pedagogical modeling based on the following methodological approaches: competence, integrative, activity, context, content and the concept of the zone of immediate development. Results: The proposed model corresponds to the strategic goal of the Financial University under the Government of the Russian Federation on the early profiling of education. A contextual approach is used to strengthen the applied orientation of basic training of students: the content of the academic discipline is fi lled with a professional context (subject-technological and social). The second component of the model is the content approach. A joint study of interrelated disciplines allows us to demonstrate general patterns and most effectively distribute the classroom load, and the learning process becomes more motivated, informed and active. The model is implemented at a Computer Workshop with the aim of mathematical preparation of students, the formation of professional skills in the use of computer technology in Economics and Finance. Mathematics is used as the content of the model, the applied orientation of learning is enhanced by the economic context, and computer technologies act as means of implementation. Student survey shows the eff ectiveness of this model. Discussion and Conclusions: The relevance of owning mathematical methods and computer technology for specialists of the broadest profi le allows us to generalize the constructed model, fi lling it with various professional contexts.

Keywords:
profi ling of teaching mathematics, integrative model, content approach, contextual approach, computer workshop
References

1. Konnova L.P., Rylov A.P., Stepanyan I.K. The Context And Content Approaches To Teaching Mathematics At The Economic University // The European Proceedings of Social & Behavioural Sciences. 2018. Vol. LI. Rp. 236—245. DOI: doi.org.10.15405/epsbs.2018.12.02.26

2. Tareva, E.G., Tarev, B.V. The assessment of students\' professional communicative competence: new challenges and possible solutions // XLinguae. 2018. Vol. 11, Issue 2. Rp. 758-767. DOI: doi.org.10.18355/XL.2018.11.02.59

3. Ting Y.L.T. CLIL appeals to how the brain likes its information: examples from CLIL-(Neuro) Science. International CLIL Research Journal. 2010. 1(3): 1–18. Available at: http://www.icrj.eu/13-73 (accessed 20 November 2019).

4. Artyuhina M.S. Kontekstnaya model' professional'nogo obrazovaniya [Context model of vocational education]. Innovacionnye tekhnologii v nauke, transporte i obrazovanii: sbornik statej mezhdunarodnoj nauchno-metodicheskoj internet-konferencii [Innovative technologies in science, transport and education: a collection of articles of the international scientific and methodological Internet conference]. Moscow: Rossijskij universitet transporta (MIIT) Publ., 2018, pp. 19–23. Available at: https://elibrary.ru/item.asp?id=36962457 (accessed 20 November 2019).

5. Verbickij A.A. Teoriya i tekhnologii kontekstnogo obrazovaniya [Theory and technology of contextual education]. Ministerstvo obrazovaniya i nauki Rossijskoj Federacii, Federal'noe gosudarstvennoe byudzhetnoe obrazovatel'noe uchrezhdenie vysshego obrazovaniya «Moskovskij pedagogicheskij gosudarstvennyj universitet» [Ministry of Education and Science of the Russian Federation, Federal State Budgetary Educational Institution of Higher Education "Moscow Pedagogical State University"]. Moscow: MPGU Publ., 2017. 266 p. Available at: http://www.iprbookshop.ru/72517.html (accessed 20 November 2019).

6. Konnova L.P., Lipagina L.V., Rylov A.A., Stepanyan I.K. Rannyaya profilizaciya v obuchenii matematike budushchih ekonomistov i menedzherov [Early profiling in teaching mathematics to future economists and managers]. Moscow: Prometej Publ., 2019. 232 p.

7. Konnova L.P., Rylov A.A., Stepanyan I.K. Kontekstnyj podhod kak sredstvo rannej profilizacii disciplin vysshej shkoly [Contextual approach as a means of early profiling of higher education disciplines]. Standarty i monitoring v obrazovanii [Standards and monitoring in education]. 2018, V. 6, I. 4, pp. 15–20. DOI: doi.org.10.12737/article_5b713bb2508bd2.08888344

8. Nasonova E. E., Batyukov M. V., Grechushkin V. A. Kontekstnyj podhod v podgotovke budushchih ekonomistov v sisteme nepreryvnogo obrazovaniya [Contextual approach to the training of future economists in the system of continuing education]. Nauka i biznes: puti razvitiya [Science and Business: Ways of Development]. 2017, I. 5 (72), pp. 28–31. Available at: https://elibrary.ru/item.asp?id=29108697 (accessed 20 November 2019).

9. Oshanin D.A. Predmetnoe dejstvie i operativnyj obraz [Subject action and operational image]. Voronezh, 1999. 508 p.

10. Programma «Cifrovaya ekonomika Rossijskoj Federacii» [The program "Digital Economy of the Russian Federation"]. Available at: http://static.government.ru/media/files/9gFM4FHj4PsB79I5v7yLVuPgu4bvR7M0.pdf (accessed 20 November 2019).

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