INFORMATION TECHNOLOGIES IN TEACHING PROBABILITY THEORY TO FOREIGN STUDENTS IN ENGLISH IN HIGHER EDUCATION INSTITUTIONS

Abstract

The article presents some features of teaching probability theory to foreign students in English in higher education institutions in Ukraine. The article emphasizes the importance of using information technologies both for teaching probability theory and for understanding this discipline by foreign students. Examples of using the LaTeX system in creating educational materials and test tasks are given.

References

1. Gamage, S. H., Ayres, J. R., & Behrend, M. B. (2022). A systematic review on trends in using Moodle for teaching and learning. International journal of STEM education, 9(1), 9.
2. Iftakhar, S. (2016). Google Classroom: what works and how. Journal of education and social sciences, 3(1), 12-18.
3. Mustafa, A. S., & Ali, N. (2023). The adoption and use of Moodle in online learning: A systematic review. Information Sciences Letters, 12(1), 341-351.
4. Rotelli, D., & Monreale, A. (2023). Processing and Understanding Moodle Log Data and Their Temporal Dimension. Journal of Learning Analytics, 10(2), 126-141.
5. Van Dongen, M.R.C. (2012). LaTeX and friends. Springer-Verlag Berlin and Heidelberg GmbH & Co. K. (300 p.).
6. Verdaguer-Codina, J. (2022). Linux, LaTeX, and Python in secondary and baccalaureate. Proceedings of IEEE Global Engineering Education Conference (EDUCON), Tunisia, 763–768.
7. Xhomara, N., & Dasho, A. (2023). Online interactions and student learning outcomes in a Moodle-based e-learning system. Technology, Pedagogy and Education, 32(4), 419-433.
8. Griffiths, D. F., & Higham, D. J. (2016). Learning LaTeX. Society for Industrial and Applied Mathematics.
9. Gryshchenko, T.V., Deineko, Zh.V. & Nikitenko, O.M. (2019). Using the LaTeX system during the preparation of scientific publications. IV International Scientific and Technical Conference “Print, Multimedia & Web”, 96–98.
10. Goossens, M., Rahtz, S. P., & Rahtz, S. (1999). The Latex Web Companion: Integrating TEX, HTML, and XML (Vol. 4). Addison-Wesley Professional.
11. Kottwitz, S. (2021). LaTeX beginner’s guide. Packt Publishing, USA, (354 p.).
12. Kottwitz, S. (2023). LaTeX graphics with TikZ. Packt Publishing, USA, (304 p.).
13. Lamport, L. (1994). LaTeX: a document preparation system. 2nd ed. Boston: Addison-Wesley. (272 p.).
14. Romansky, R. (2023). Empirical evaluation of the transfer of information resources in active learning. International Journal on Information Technologies & Security, 15(1),
15. –48.
16. Baalrud, S. D., & Daligault, J. (2019). Mean force kinetic theory: A convergent kinetic theory for weakly and strongly coupled plasmas. Physics of Plasmas, 26(8).
17. Hubal, H. M. (2014). The Einstein Law for the System ”Brownian Particle in Thermostat” Based on the Presented Probability Approach. International Journal of Pure and Applied Mathematics, 93(6), 885-895.
18. Hubal, H.M. (2016). The convergence of the series of the solution of the cauchy problem for the bbgky hierarchy of equations in many-kind particle systems. International Journal of Pure and Applied Mathematics, 108(4), 957–965.
19. Hubal, H. M. (2018). Mathematical texts and figures in the LaTeX system. Computer Integrated Technologies: Educaton, Scuience, Production, (32), 90-94.
20. Hubal, H.M. (2019). Mathematical description of the non-equilibrium state of symmetric particle systems. International Journal of Applied Mathematics, 32(5), 767–774.
21. Hubal, Н. (2019). Construction and study of the system of differential equations that describes oscillatory chemical reactions based on diffusion. Computer-Integrated Technologies: Education, Science, Production, (34), 32-36.
22. Hubal, H. (2020). Construction and study of the system of differential equations that describes the mutual synchronization of coupled self-oscillating chemical systems. Computer-Integrated Technologies: Education, Science, Production, (41), 30-34.
23. Hubal, Н. (2021). Mathematical modeling of biochemical processes rates in biological systems. Computer-Integrated Technologies: Education, Science, Production, (42),
24. -49.
25. Spohn H. Large scale dynamics of interacting particles. – Berlin: Springer-Verlag, 1991. – xi, 342 pp.
26. Villani, C. (2002). A review of mathematical topics in collisional kinetic theory. Handbook of mathematical fluid dynamics, 1(71-305), 3-8.
27. Губаль, Г. М. (2022). Математичне дослідження стійкості особливих точок систем диференціальних рівнянь, які описують швидкості біохімічних процесів. Наукові нотатки, (73), 29-39.
28. Hubal, H. M. (2025). Mathematical investigation of change in the size of a cancerous tumour when its cells are being destroyed by T-lymphocytes. Journal of Interdisciplinary Mathematics, 28(4), 1429-1435.
29. Leifeld, P. (2013). texreg: Conversion of Statistical Model Output in R to LATEX and HTML Tables. Journal of Statistical Software, 55(8), 1-24.
30. Hubal, H.M. (2023). Improvement of references and footnotes in mathematical and other texts by creating macros in the LaTeX programming language. International Journal on Information Technologies & Security, (15(3)), 15–22.
31. Lode, C. (2019). Better books with LaTeX the agile way. Clements Lode Verlag E.K. (254 p.).
32. Nakashima, H., & Saito, Y. (2007). How to Typeset Your Papers in LATEX (Version 6). IPSJ Journal.