10/2021 vol. 17
Stats
CC-BY 4.0
Get citation
RESEARCH PAPER
Key Problems of Complex Topics in Mathematics as the Basis of Teaching Methods in the Conditions of Self-Education
Natalia A. Zelenina 1
,
 
Nadezhda V. Telegina 2
,
 
Gennadi B. Pronchev 3
,
 
Roza I. Yagudina 4
,
 
Farid M. Galimov 5
,
 
Elena V. Slepneva 6
 
 
 
More details
Hide details
1
Vyatka State University, Kirov, RUSSIA
 
2
Kazan (Volga region) Federal University, Kazan, RUSSIA
 
3
Lomonosov Moscow State University, Moscow, RUSSIA
 
4
I.M. Sechenov First Moscow State Medical University (Sechenov University), Moscow, RUSSIA
 
5
Kazan National Research Technical University named after A. N. Tupolev – KAI, Kazan, RUSSIA
 
6
Kazan National Research Technological University, Kazan, RUSSIA
 
 
Publication date: 2021-08-24
 
 
EURASIA J. Math., Sci Tech. Ed 2021;17(10):em2020
DOI: https://doi.org/10.29333/ejmste/11186
 
 
Article (PDF)
References (58)
 
KEYWORDS
teaching mathematics
tasks with parameters
basic (key) tasks
teaching methods of
mathematics
equation of a circle
 
ABSTRACT
Ensuring a high quality of teaching mathematics to students is inextricably linked with teaching how to solve creative mathematical problems. These problems traditionally include tasks of high educational, developmental and diagnostic value. Teaching how to solve such problems allows training graduates with the highest level of the subject knowledge. The problem under study is relevant due to the need to form students’ ability to solve problems with parameters in order to achieve high results in mathematics, intellectual and personal growth. The problem has a new meaning during temporary distance learning, emphasizing the need to create educational and methodological materials that allow students to organize self-education on complex topics in mathematics. The purpose of this research is to develop and describe a teaching methodology for solving problems with parameters based on the allocation of basic (key) problems. The authors have developed a methodology for constructing a system of tasks based on systematizing the theoretical and task material, highlighting students’ basic knowledge and skills, describing the intra- and inter-subject connections of the topic “Equation of a circle in tasks with parameters”. This methodology includes a typology of problems with parameters containing the equation of a circle, a substantiated description of the system of basic (key) problems, the role and content of the propaedeutic stage of teaching. The materials have passed multi-stage approbation and shown their consistency in achieving high results in mathematics. They can help teachers to prepare lessons and extracurricular activities, authors to provide teaching aids for students and teachers, and serve as the basis for a special course for students of pedagogical universities.
 
REFERENCES (58)
1.
Al-Hilli, W. H. (2019). Using software’s and technology in solving mathematics problem to motivate and accelerate the learning process. Eurasia Journal of Mathematics, Science and Technology Education, 15(3), em1670. https://doi.org/10.29333/ejmst....
CrossRef
 
Google Scholar
 
 
2.
Arcavi, A. (2003). The role of visual representations in the learning of mathematics. Educational Studies in Mathematics, 52(3), 215–241. https://doi.org/10.1023/A:1024....
CrossRef
 
Google Scholar
 
 
3.
Aryutkina, S. V. (2002). Formation of generalized methods of solving equations and inequalities with parameters among students of grades 8-9 (PhD thesis), Arzamas.
Google Scholar
 
 
4.
Bashmakov, M. I. (1976). Equations and inequalities. Nauka.
Google Scholar
 
 
5.
Bhagat, K. K., & Chang, C.-Y. (2015). Incorporating GeoGebra into geometry learning-A lesson from India. Eurasia Journal of Mathematics, Science & Technology Education, 11(1), 77-86. https://doi.org/10.12973/euras....
CrossRef
 
Google Scholar
 
 
6.
Boukhanov, G. V., Vrublevskiy, A. S., Kosolapova, N. V., & Martynova, E. V. (2019). Project activity as а technology implementation of the competence-based approach in modern educational process. Vestnik NCBŽD, 1(39), 26-32.
Google Scholar
 
 
7.
Dalinger, V. A. (1999). Formation of students’ visual thinking in the process of teaching mathematics. Publishing house of OmGPU.
Google Scholar
 
 
8.
Dorofeev, G. V. (1983). On the compilation of cycles of interrelated problems. Mathematics at School, 6, 34-39.
Google Scholar
 
 
9.
Dorofeev, G. V., Potapov M. K., & Rozov, N. Kh. (1999). Mathematics. For applicants to universities. Bustard.
Google Scholar
 
 
10.
Galitsky, M. L., Goldman, A. M., & Zvavich, L. I. (2001). Collection of problems in algebra for grades 8-9: textbook. Manual for students of school and classes with in-depth studying mathematics (7th ed.). Education.
Google Scholar
 
 
11.
Galiullina, E. R. (2018). Mastering the methods of generating ideas as a way to develop creativity. Vestnik NCBŽD, 1(35), 12-15.
Google Scholar
 
 
12.
Golubev, V. I. (1991). The absolute value of a number in competitive exams in mathematics. Quantor.
Google Scholar
 
 
13.
Golubev, V. I. (2007). Solving complex and non-standard problems in mathematics. Ileksa.
Google Scholar
 
 
14.
Halomizer, A. Ya. (1987). On the experience of the teacher R.G. Khazankin. Mathematics at School, 4, 16-21.
Google Scholar
 
 
15.
Karasev, V. A., & Levshina, G. D. (2012). Solving tasks with parameters using graphs of functions. Ileksa.
Google Scholar
 
 
16.
Khazankin, R. G. (1991). Ten commandments of the teacher of mathematics. Public Education, 1, 70-73.
Google Scholar
 
 
17.
Khazankin, R. G. (2000). Mathematical education and secondary school. Mathematical education. Journal of the Foundation for Mathematical Education, 4(13), 12-26.
Google Scholar
 
 
18.
Klekovkin, G. A., & Maksyutin, A. A. (2009). Problem-solving approach in teaching mathematics. Era.
Google Scholar
 
 
19.
Kolyagin, Yu. M. (1977). Problems in teaching mathematics. Education.
Google Scholar
 
 
20.
Koryanov A. G., & Prokofiev A. A. (2011). Using the method of visual-graphic interpretation when solving equations and inequalities with parameters. Mathematics at School, 1, 25-32.
Google Scholar
 
 
21.
Kovaleva, G. I., & Dyumina T. Yu. (2009). Teaching future mathematics teachers to construct systems of problems by the “key” method. Bulletin of the Volgograd State Pedagogical University, 1, 139-143.
Google Scholar
 
 
22.
Kozhukhov, S. K., & Kozhukhova, S. A. (2010a). Equations and inequalities with a parameter. OIUU.
Google Scholar
 
 
23.
Kozhukhov, S. K., & Kozhukhova, S. A. (2010b). On the methodological expediency of solving problems in different ways. Mathematics at School, 3, 42-44.
Google Scholar
 
 
24.
Kozko, A. I., & Chirsky, V. G. (2007). Tasks with a parameter and other complex problems. MTsNMO.
Google Scholar
 
 
25.
Krupich, V. I. (1995). Theoretical foundations of teaching the solution of school mathematical problems. Prometheus.
Google Scholar
 
 
26.
Litvinenko, V. N., & Mordkovich, A. G. (1983). Workshop on solving problems in school mathematics. Algebra. Education.
Google Scholar
 
 
27.
Markov, V. K. (1970). Method of coordinates and tasks with parameters. Education.
Google Scholar
 
 
28.
Miroshin, V. V. (2008). Formation of a content-methodological line of tasks with parameters in the course of mathematics at school (PhD thesis), Moscow.
Google Scholar
 
 
29.
Modenov, V. P. (2002). Mathematics for students and applicants. Institute for Computer Research.
Google Scholar
 
 
30.
Modenov, V. P. (2007). Tasks with parameters. Coordinate-parametric method: a tutorial. Examination.
Google Scholar
 
 
31.
Olekhnik, S. N., Potapov, M. K., & Nesterenko, Yu. V. (1992). Competition problems in mathematics. Nauka.
Google Scholar
 
 
32.
Osipenko, L. A., & Statsevichute, E. E. (2010). Reference tasks in planimetry: a methodological guide. Irkutsk.
Google Scholar
 
 
33.
Ostanov, K., Inatov, A., & Khimmatov, I. (2018). The role of the system of key problems in the process of teaching mathematics. European research: innovation in science, education and technology Collection of scientific articles ХLI International scientific and practical conference (pp. 67-76). Problems of Science.
Google Scholar
 
 
34.
Rozov, N. Kh. (1997). Differentiated learning and problems of forming a “basis” in the space of tasks. Mathematical education: traditions and modernity: Abstracts of reports (pp. 67-68). Federal research and practical conference. NGPU.
Google Scholar
 
 
35.
Sarantsev, G. I. (1995). Exercises in teaching mathematics. Education.
Google Scholar
 
 
36.
Sarantsev, G. I. (2002). Methods of teaching mathematics in secondary school. Education.
Google Scholar
 
 
37.
Sergeev, I. N. (2005). Mathematics. Problems with answers and solutions. KDU.
Google Scholar
 
 
38.
Sharygin, I. F. (2000). Discourses on the concept of school geometry. MTsNMO.
Google Scholar
 
 
39.
Shestakov, S. A., & Yurchenko, E. V. (1993). Equations with a parameter. Syllable.
Google Scholar
 
 
40.
Shivrinskaya, E. V. (2002). Tasks with parameters as a means of increasing the motivation of teaching mathematics (PhD thesis), Moscow.
Google Scholar
 
 
41.
Swetz, F. J., & Сhi, A. Y. (1983). Mathematics entrance examinations in chinese institutions of higher education. Educational Studies in Mathematics, 14(1), 39-54. https://doi.org/10.1007/BF0070....
CrossRef
 
Google Scholar
 
 
42.
The concept of the development of mathematical education in the Russian Federation (2013). Rossiyskaya Gazeta. 2013. December, 27. http://www.rg.ru/2013/12/27/ma....
Google Scholar
 
 
43.
Tokareva, V. A., & Zelenina, N. A. (2016). Laboratory work using the “Living Mathematics” program when teaching students in grades 7-8 to solve problems with a parameter. Scientific and methodological electronic journal “Concept”, 9, 91-95. http://e-koncept.ru/2016/46165....
Google Scholar
 
 
44.
Tolpekina, N.V. (2002). Methodology for organizing educational research in teaching students to solve equations, inequalities and systems with parameters (PhD thesis), Omsk.
Google Scholar
 
 
45.
Vazhenin, Yu. M. (1997). A self-instruction manual for solving tasks with parameters. USU.
Google Scholar
 
 
46.
Viranovskaya, E. V. (2008). Methods of teaching mathematics. ORGTI.
Google Scholar
 
 
47.
Wassie, Y. A., & Zergaw, G. A. (2019). Some of the Potential Affordances, Challenges and Limitations of Using GeoGebra in Mathematics Education. Eurasia Journal of Mathematics, Science and Technology Education, 15(8), em1734, https://doi.org/10.29333/ejmst....
CrossRef
 
Google Scholar
 
 
48.
Yastrebinetskiy, G. A. (1986). Tasks with parameters. Education.
Google Scholar
 
 
49.
Zakirova, V. G., Zelenina, N. A., Smirnova, L. M., & Kalugina, O. A. (2019). Methodology of teaching graphic methods for solving problems with parameters as a means to achieve high mathematics learning outcomes at school. Eurasia Journal of Mathematics, Science and Technology Education, 15(8), em1741. https://doi.org/10.29333/ejmst....
CrossRef
 
Google Scholar
 
 
50.
Zdorovenko, M. Yu., Zelenina, N. A., & Krutikhina, M. V. (2016). Using various methods for solving tasks with parameters at the Unified State Exam in mathematics / Scientific and methodological electronic journal “Concept”, 8, 139-150. http://e-koncept.ru/2016/16176....
Google Scholar
 
 
51.
Zdorovenko, M.Yu., & Zelenina N.A. (2018). Change of a variable in tasks with parameters. Scientific and methodological electronic journal “Concept”, 7, 82-92. http://e-koncept.ru/2018/18606....
Google Scholar
 
 
52.
Zelenina, N. A., & Krutikhina, M. V. (2018). Problems of preparing students for final certification in the context of the results of the USE in mathematics in 2017 in the Kirov region. Scientific and methodological electronic journal “Concept”, 3, 12-24. http://e-koncept.ru/2018/18101....
Google Scholar
 
 
53.
Zelenina, N. A., & Krutikhina, M. V. (2019). Teaching students of grades 8-9 graphic methods to solve tasks with parameters. Mathematical Bulletin of Pedagogical Universities and Universities of the Volga-Vyatka Region, 21, 253-259.
Google Scholar
 
 
54.
Zelenina, N. A., & Krutikhina, M. V. (2021). Some problems of preparing students for final certification in the context of the results of the USE in mathematics in 2020 in the Kirov region. Management of the quality of education: problems and prospects: Materials of the All-Russian scientific and practical conference (10 -11 December 2020). - Ulyanovsk: Federal State Budgetary Educational Institution of Higher Education “Ul-GPU named after I.N. Ulyanov”, pp. 37-44.
Google Scholar
 
 
55.
Zelenina, N. A., & Nosova, N. V. (2020). Analysis of the Unified State Exam Results in the subject “Mathematics”. Unified State Exam in the Kirov Region. Analysis of the results of the exam 2020: a collection of information, analytical and methodological materials. KGOAU DPO “IRO of the Kirov region.
Google Scholar
 
 
56.
Zharko, L. N. (2020). Case-study as an innovative pedagogical technology in teaching activities of lecturer of additional professional education. Vestnik NCBŽD, 2(44), 49-56.
Google Scholar
 
 
57.
Zilberberg, N. I. (1988). Introduction to mathematical creativity. Bashkir book publishing house.
Google Scholar
 
 
58.
Zilberberg, N. I. (1995). A lesson in mathematics: preparation and delivery. A book for a teacher. Education.
Google Scholar
 
 
Share
Send by email
RELATED ARTICLE
Validation of a questionnaire to evaluate mathematics teachers’ beliefs about mathematics, teaching, and learning
Review of research on microteaching in mathematics teacher education: Promises and challenges
The Influence of Mathematics Score and Student Factors on Science Achievement Using TIMSS Data
Systematic Literature Review of Flipped Classroom in Mathematics
Learning Mathematics From Home During COVID-19: Insights From Two Inquiry-Focussed Primary Schools
Indexes
 
Keywords index
Topics index
Authors index
eISSN:1305-8223
ISSN:1305-8215
Journals System - logo
© 2006-2024 Journal hosting platform by Bentus
Scroll to top