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Бакалавриат 2022/2023

Абстрактная математика

Направление: 38.03.01. Экономика
Когда читается: 3-й курс, 1-4 модуль
Формат изучения: с онлайн-курсом
Онлайн-часы: 36
Охват аудитории: для своего кампуса
Язык: английский
Кредиты: 8
Контактные часы: 120

Course Syllabus

Abstract

Abstract Mathematics is a two-semester course for the third year bachelor’s programme students who selected specialization Economics and Mathematics. The course is taught in English. For the theory itself there are no pre-requisites except for an aptitude for logical reasoning. However, many examples will reference concepts from Calculus, Statistics, Mathematics for Economists and Linear Algebra courses from the 1st and 2nd years of the ICEF bachelor’s programme. The emphasis of the course is on the theory rather than on the method. One central topic of the course is formal mathematical reasoning. The students will practice formulating precise mathematical statements and proving them rigorously. These skills are essential for the current specialization, they often remain in shadows in other math courses where the focus is on solving problems through calculation. The second central topic of the course is the abstract mathematical structures from algebra (groups, fields, etc.), analysis, topology (topological spaces, manifolds) and functional analysis. We will develop some of these theories roughly to the extent of standard 1st and 2nd -year courses of the mathematical departments. The awareness of the theoretical foundations of these classical theories is key in understanding the contemporary theoretical research and the synergies between different areas of mathematics and its applications.
Learning Objectives

Learning Objectives

  • explain the main mathematical concepts in discrete mathematics, algebra, real analysis, functional analysis and topology;
  • to illustrate the concepts by specific examples and counter-examples;
  • to teach how to use formal notations correctly and in connection with precise statements in English
  • to give definitions, formulate statements of the key theorems and present their proofs
  • to critically analyze a proposed proofs of a given statement and make a conclusion on the completeness and accurateness of the proof
  • to give a generic understanding of the applications of the discussed classical theories
  • to teach how to find and formulate proofs of problems based on the main definitions and theorems
Expected Learning Outcomes

Expected Learning Outcomes

  • be able to critically analyze a proposed proof of a given statement and make a conclusion on the completeness and accurateness of the proof;
  • be able to find and formulate proofs of problems based on the main definitions and theorems
  • be able to give definitions, formulate statements of the key theorems and present their proofs
  • be able to give definitions, formulate statements of the key theorems, such as Chinese Remainder Theorem, The Fundamental Theorem of Arithmetic, etc., and present their proofs;
  • be able to give definitions, formulate statements of the key theorems, such as Lagrange Theorem, Homomorphism Theorem, etc., and present their proofs
  • be able to give the opposite and the contrapositive statements for a given statement
  • be able to illustrate the concepts in Set Theory by specific examples and counter-examples
  • be able to illustrate the concepts of Group Theory by specific examples and counter-examples
  • be able to illustrate the concepts of Real Analysis including the axiomatic definition of the set of real numbers; Functional Analysis such as norm, metric, metric spaces; Topology such as a topological space, base of topology by specific examples and counter-examples;
  • be able to illustrate the concepts of Ring Theory and Field Theory by specific examples and counter-examples
  • be able to use formal notations correctly and in connection with precise statements in English
Course Contents

Course Contents

  • Introduction to Set Theory
  • Algebraic Structures: Groups
  • Algebraic Structures: Rings and Fields
  • Elements of Real Analysis, Functional Analysis and Topology
  • Introduction to Mathematical Reasoning
  • Mathematical Logic
Assessment Elements

Assessment Elements

  • non-blocking Final exam
  • non-blocking Exam I (midterm)
  • non-blocking Exam-II
  • non-blocking Exam-III (midterm)
  • non-blocking Homework and in class activities
Interim Assessment

Interim Assessment

  • 2022/2023 2nd module
    0.2 * Homework and in class activities + 0.35 * Exam I (midterm) + 0.45 * Exam-II
  • 2022/2023 4th module
    0.4 * Exam-III (midterm) + 0.1 * Homework and in class activities + 0.5 * Final exam
Bibliography

Bibliography

Recommended Core Bibliography

  • An introduction to mathematical reasoning : numbers, sets and functions, Eccles, P. J., 2013
  • Discrete mathematics, Biggs, N. L., 2004

Recommended Additional Bibliography

  • Элементы теории функций и функционального анализа, Колмогоров, А. Н., 2006