Бакалавриат
2021/2022
Математический анализ II
Лучший по критерию «Полезность курса для расширения кругозора и разностороннего развития»
Лучший по критерию «Новизна полученных знаний»
Статус:
Курс по выбору (Экономика)
Направление:
38.03.01. Экономика
Кто читает:
Департамент математики
Где читается:
Санкт-Петербургская школа экономики и менеджмента
Когда читается:
1-й курс, 3, 4 модуль
Формат изучения:
без онлайн-курса
Охват аудитории:
для своего кампуса
Язык:
английский
Кредиты:
8
Контактные часы:
120
Course Syllabus
Abstract
The goal of studying the discipline “Mathematical Analysis II is learning the topics “Integral Calculus”, “Series and function series”, “Elements of ordinary differential equations theory”, allowing the student to approach other disciplines such as “Probability Theory and Mathematical Statistics”, “Optimal Decisions Theory”, “Microeconomics”, “Macroeconomics”, “Game Theory”, and “Econometrics”. The material of the course can be used in development and applications of numerical methods of solving the problems in many areas of knowledge, and for creating and analyzing the mathematical models in various subjects, first and foremost in economics. The discipline is a model for studying of the mathematical component of “Economics” students’ education.
Learning Objectives
- The goal of studying the discipline “Mathematical Analysis 1” is learning the basic course of Mathematical Analysis, getting familiar with the terminology, theoretical principles and problem solving skills based on the fundamental notions of the course such as antiderivative, indefinite and definite integral, multiple integrals, convergent/divergent series, radius of convergence of a power series, differential equation, its general and partial solution, superposition principle for the linear ODEs and other principles, forming of the theoretical foundations and a set of mathematical tools for the disciplines of the Economics cycle.
- As the result of having finished the course the student must: 1. Be acquainted with the main notions, theorems and methods of integral calculus, the ways of studying function series, methods of solving differential equations. 2. Be able to apply the tools of mathematical analysis to the problems of computing and predicting economic indicators, use tools of differential equations for modeling simple economic processes. 3. Have the skills of interpreting the results obtained in mathematical research.
Expected Learning Outcomes
- demonstrates the knowledge of the basic notions of integral calculus: indefinite and definite integral, improper integral, multiple integral, the use of integrals in applications
- demonstrates the knowledge of the notions of convergence and divergence of a number series, radius of convergence of a power series
- knows the methods of solving differential equations, demonstrates the ability to apply the theory for analyzing differential equations
Course Contents
- Part 1 “Integral Calculus” Topic I. Antiderivative,indefinite integral.
- Topic II. Definite integral
- Topic III. Multiple integrals
- Part 2 «Series» Topic IV. Number and function series
- Part 3 «Introduction to ordinary differential equations theory» Topic V. «Ordinary differential equations»
Assessment Elements
- Test 1The tests are being held in the auditorium or distance remotely (in case of distance learning format) in a written form, the duration is determined by the lecturer and the students are notified of it in advance. The possibility of the tests being held for all groups at the same time reserved. The requirements for the test procedure in distance format are being made available to the students via an instruction in LMS (and or via the University email) in advance
- Test 2The tests are being held in the auditorium or distance remotely (in case of distance learning format) in a written form, the duration is determined by the lecturer and the students are notified of it in advance. The possibility of the tests being held for all groups at the same time reserved. The requirements for the test procedure in distance format are being made available to the students via an instruction in LMS (and or via the University email) in advance
- Test 3The tests are being held in the auditorium or distance remotely (in case of distance learning format) in a written form, the duration is determined by the lecturer and the students are notified of it in advance. The possibility of the tests being held for all groups at the same time reserved. The requirements for the test procedure in distance format are being made available to the students via an instruction in LMS (and or via the University email) in advance
- Self- study 1
- Self-study 2
- ExamThe tests are being held in the auditorium or remotely (in case of distance learning format) in the written form, the duration is determined by the lecturer and the students are notified of it in advance. The possibility of the tests being held for all groups at the same time reserved. The requirements for the test procedure in distance format are being made available to the students via an instruction in LMS (and or via the University email) in advance. 1)The exam tasks will coincide with the demo variant in structure 2)The types of functions, integrands, differential equations etc. will be different from the demo variant, also the methods of solution will differ. 3) The computational part will be graded according to the same criteria as the tests. 4) In the computational problems the student is required to write down the answer. The answer should contain the objects that one needed to find, their characteristics, if asked in the problem. In the problems on series: convergence/divergence, type of convergence (if asked), for differential equations; particular/general solution
Interim Assessment
- 2021/2022 4th module0.05 * Self-study 2 + 0.18 * Test 2 + 0.18 * Test 1 + 0.36 * Exam + 0.18 * Test 3 + 0.05 * Self- study 1
Bibliography
Recommended Core Bibliography
- Mangatiana A. Robdera, A Concise Approach to Mathematical Analysis, 2003, [electronic resource] link: https://link.springer.com/book/10.1007/978-0-85729-347-3
- V. A. Zorich. (2016). Mathematical Analysis I (Vol. 2nd ed. 2015). Springer.
Recommended Additional Bibliography
- C. R. J. Clapham, Introduction to Mathematical Analysis, 1973, Routledge & Kegan Paul. ISBN: 978-94-011-6572-3. [electronic resource] link: https://link.springer.com/book/10.1007/978-94-011-6572-3
- Rudin, W. (1976). Principles of mathematical analysis.