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— 60110600 —

General description of the undergraduate program of mathematics and computer science

Forms of education: full-time
Degree awarded: Bachelor’s
Languages of education: Uzbek, Russian
Program code: 60110600
Program duration: 4 years
Program Name: Mathematics and Informatics

A student of mathematics and informatics must collect 30 credits per semester and 60 credits per academic year. The duration of study is 4 years, and the student must complete 240 credits before completing the program.

A student of mathematics and informatics must collect 30 credits per semester and 60 credits per academic year. The duration of study is 4 years, and the student must complete 240 credits before completing the program.

60110600 – Education field of mathematics and informatics– subjects, means of pedagogical activity, methods, methods used in the process of pedagogical personnel in the field of undergraduate education for general secondary schools, secondary special, vocational educational institutionsi; To engage in scientific and pedagogical research works in network research institutes of the Ministry of Public Education of the Republic of Uzbekistan and the Ministry of Higher and Secondary Special Education and as an independent researcher;

60110600 – Types of professional activities of graduates of mathematics and informatics:

  • – teaching mathematics and informatics in the established order in general secondary education, secondary special, vocational educational institutions;
  • – work in educational institutions as cabinet manager, laboratory assistant and equivalent positions;
  • – to work as a methodologist in the field of mathematics and informatics in the ministries that carry out education in the appropriate educational areas, their branch departments and institutions;
  • – working as a junior researcher in scientific and research organizations in the field of natural sciences;
  • – work in local self-government bodies and local centers of spirituality and enlightenment;
  • – development and implementation of pedagogy and technology of professional education, didactic teaching tools in production areas;

Graduates of the field of mathematics and informatics can continue their studies within the specified period of time in master’s specialties determined by the Ministry of Higher and Secondary Special Education of the Republic of Uzbekistan.

I academic year / 1st semester

Subject code Qualification code Subject name Hour Credit Selection type
1.01 351FalM04 Philosophy 120 4 Compulsory
1.04 351XTM08 Foreign language 120 4 Compulsory
1.05 351O’EYTM04 The newest history of Uzbekistan 120 4 Compulsory
1.15 351MaM08 Mathematics analysis 120 4 Compulsory
1.18 351ASM10 Algebra 180 6 Compulsory
1.19 351AKM12 Geometry 120 4 Compulsory
1.21 351INAM04 Theoretical foundations of computer science 120 4 Compulsory
Total: 900 30

I academic year / 2nd semester

Subject code Qualification code Subject name Hour Credit Selection type
1.02 351ManM02 Spiritual science 60 2 Compulsory
1.03 351O’RTM04 Uzbek  language 120 4 Compulsory
1.04 351XTM08 Foreign language 120 4 Compulsory
1.05 351YFGM1004 Physiology of youth. Ecology 120 4 Compulsory
1.15 351MaM08 Mathematical analysis 1 120 4 Compulsory
1.18 351ASM10 Algebra 120 4 Compulsory
1.19 351AKM12 Geometry 120 4 Compulsory
1.22 351KTM04 Computer support 120 4 Compulsory
Total: 900 30

II academic year / 3rd semester

Subject code Qualification code Subject name Hour Credit Selection type
1.07 351FizM04 Physics 120 4 Compulsory
1.08 351UmPsixM08 General psychology 120 4 Compulsory
1.13 351SNM04 Number theory 120 4 Compulsory
1.16 351MAIM04 Mathematical analysis 2 120 4 Compulsory
1.20 351DGTM04 Differential geometry and topology 120 4 Compulsory
1.23 351DTMI0 Programming languages 180 6 Elective
2.02 351EM04 Elementary mathematics 120 4 Elective
Total: 900 30

II academic year / 4th semester

Subject code Qualification code Subject name Hour Credit Selection type
1.08 351UmPsixM08 General psychology 120 4 Compulsory
1.11 351MO’TLM04 Mathematics teaching technologies and design 120 4 Compulsory
1.14 351SHUM04 Numerical calculation methods 120 4 Compulsory
1.23 351DTMI0 Programming languages 120 4 Compulsory
1.24 351MO’MM08 Mathematics teaching methodology 120 4 Compulsory
1.32 351KGWDM04 Computer graphics and web design 120 4 Compulsory
2.00 Elective subjects 120 4 Elective
Qualification and pedagogical practice 60 2 Compulsory
Total: 900 30

III academic year / 5th semester

Subject code Qualification code Subject name Hour Credit Selection type
1.09 351UmPedM08 General pedagogy 120 4 Compulsory
1.13 351XBTM04 International assessment systems (PISA, TIMSS, TALIS) 120 4 Compulsory
1.17 351DTM04 Differential equations 120 4 Compulsory
1.24 351MO’MM08 Mathematics teaching methodology 120 4 Compulsory
1.26 351TT06 Network technologies 180 6 Elective
2.00 Elective subjects 240 8 Elective
Total: 900 30

III academic year / 6th semester

Subject code Qualification code Subject name Hour Credit Selection type
1.08 351UmPedM08 General pedagogy 120 4 Compulsory
1.12 351KMM08 Computer modeling 120 4 Compulsory
1.25 351IO’M04 Methodology of teaching chemistry at school 120 4 Compulsory
1.28 351KMT06 Computerized mathematical systems 180 6 Compulsory
2.00 Elective subjects 240 8 Elective
Qualification and pedagogical practice 120 4 Compulsory
Total: 900 30

IV academic year / 7th semester

Subject code Qualification code Subject name Hour Credit Selection type
1.12 351KMM08 Computer modeling 120 4 Compulsory
1.27 351MBM06 Database 180 6 Compulsory
1.30 351FAM04 Functional analysis 120 4 Compulsory
1.31 351enmsm04 Probability theory and mathematical statistics 120 4 Compulsory
2.00 Elective subjects 360 12 Elective
Total: 900 30

IV academic year / 8th semester

Subject code Qualification code Subject name Hour Credit Selection type
2.09 351MPA26 Qualification and pedagogical practice 780 26 Compulsory
2.10 351YDA04 Final state certifications 120 4 Compulsory
Total: 900 30

The goals and tasks of science

The purpose of the subject is to deeply teach future teachers of mathematics and informatics the most important theoretical principles in mathematics and informatics, to provide students with knowledge that meets the state educational standard and qualifications, to demonstrate the educational and educational importance of teaching by expressing his personal attitude to the whole process from a mathematical point of view, relying on the real life of each subject, implementation of career guidance through in-depth coverage of issues related to mathematics and informatics courses in schools, academic lyceums and vocational colleges.

The task of science — on the basis of the National Personnel Training Program, as well as in-depth observation of mathematics and informatics science calculation issues, since the possibility of obtaining a clear and concrete solution is very high, during the period of its study, mathematics and informatics theoretical knowledge, mathematics ability to work with measuring instruments and computer programming languages, computer maintenance, to be aware of modern computer systems, especially computer mathematical systems, to conduct various experiments with their help, to create animations, to be able to create visualizations, to be able to analyze educational literature, to be able to perform calculations with mathematics and informatics formulas and equations and qualifications are required.

What knowledge and skills the student will have at the end of the course?

  • -historical stages of the formation and development of mathematics and computer science;
  • -further advances in mathematics and computer science;
  • – to have knowledge of theoretical issues of mathematics and informatics, including applied mathematics, functional analysis, probability theory;
  • – development and general description of the concept of integration of mathematics and informatics;
  • – having the competence to teach school and AL mathematics classes based on new methods based on mathematics and informatics;
  • – having knowledge of mathematical analysis, geometry, algebra and number theory;
  • – to get acquainted with the teaching methods of the Cambridge and Finnish educational systems and to have the ability to learn to adapt them to the education of Uzbekistan;
  • – familiarity with computer mathematical systems and being able to analyze them;
  • – to be able to use modern information technologies in education and to introduce elements of modern methodology into education based on them;
  • – to have programming languages and programming skills based on them;
  • – computer servicing;
  • – determining the appropriate place of general mathematics and computer science in society;
  • – to practice the acquired theoretical knowledge, i.e. to perform laboratory work;
  • – must have professional competencies.

Brief description of science:

mathematics and computer science is intended for undergraduate students of mathematics and computer science, introduction to mathematics and computer science, history of the development of general mathematics and computer science and the development of mathematics and computer science in Uzbekistan, basic concepts of mathematics and computer science and laws, the science of mathematics teaching methodology, digital technologies in science, programming languages, the latest programming languages and knowing how to program with them, thoroughly studying computers and providing them with technical service, modern theories, familiarization with computer mathematical systems that integrate mathematics and informatics and being able to apply them to the teaching process, numerical method, mathematical analysis, geometry, algebra and number theory, probability theory, basic theories are described in a certain consistency. Thorough mastering of science, along with knowledge of theoretical materials, serves as a skill for students during their pedagogical practice and post-graduation work.

Type of lesson and evaluation method

Type of lesson 1st semester Controls Score distribution
Lecture training 30 hour Midterm 20 score
Practical training 16 hour current control 10 score
Laboratory training 46 hour current control 10 score
Independent education 90 hour current control 10 score
Final 50 score
Type of lesson 2nd semester Controls Score distribution
Lecture training 30 hour Midterm 20 score
Practical training 16 hour current control 10 score
Laboratory training 44 hour current control 10 score
Independent education 90 hour current control 10 score
Final 50 score

Table for transfer of assessment from 5-point scale to 100-point scale

5-point scale  100-point scale
5,00 — 4,96 100
4,95 — 4,91 99
4,90 — 4,86 98
4,85 — 4,81 97
4,80 — 4,76 96
4,75 — 4,71 95
4,70 — 4,66 94
4,65 — 4,61 93
4,60 — 4,56 92
4,55 — 4,51 91
4,50 — 4,46 90
4,45 — 4,41 89
4,40 — 4,36 88
4,35 — 4,31 87
5-point scale  100-point scale
4,30 — 4,26 86
4,25 — 4,21 85
4,20 — 4,16 84
4,15 — 4,11 83
4,10 — 4,06 82
4,05 — 4,01 81
4,00 — 3,96 80
3,95 — 3,91 79
3,90 — 3,86 78
3,85 — 3,81 77
3,80 — 3,76 76
3,75 — 3,71 75
3,70 — 3,66 74
3,65 — 3,61 73
5-point scale  100-point scale
3,60 — 3,56 72
3,55 — 3,51 71
3,46 — 3,54 70
3,45 — 3,41 69
3,40 — 3,36 68
3,35 — 3,31 67
3,30 — 3,26 66
3,25 — 3,21 65
3,20 — 3,16 64
3,15 — 3,11 63
3,10 — 3,06 62
3,05 — 3,01 61
3,00 60
lower than 3,0  lower than 60