| Type of course: | Compulsory |
| Language of instruction: | English |
| Erasmus Language of instruction: | English |
| Name of lecturer: | Pax Dorin Wainberg-Drăghiciu |
| Seminar tutor: | Pax Dorin Wainberg-Drăghiciu |
| Form of education | Full-time |
| Form of instruction: | Class |
| Number of teaching hours per semester: | 56 |
| Number of teaching hours per week: | 4 |
| Semester: | Autumn |
| Form of receiving a credit for a course: | Grade |
| Number of ECTS credits allocated | 6 |
This course is designed to introduce students to various topics in mathematics and uncertainty that they will encounter in economics sciences.
The concepts are illustrated with actual examples from the specialized literature. Exercises are designed to encourage the student to begin thinking about applied mathematics within a theoretical context. Today, the theory of applied mathematics has found many applications in economics. In this cou
Mathematics is increasingly important in terms of the expression and communication of ideas in economics. A thorough knowledge of mathematics is indispensable for understanding almost all fields of economics, including both applied and theoretical fields. Especially understanding of elements of calc
This class is designed to provide the appropriate mathematical tools for students who are interested in economics with policy concentration. The formal derivations of the mathematical tools needed will be the heart of this class. Economic concepts and models can often be easily and precisely describ
Therefore, as applications of the mathematical concepts covered in class, examples and motivation will be drawn from important topics in economics.
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Chapter 1. Linear Programming 1.1. Solving a linear programming problem 1.2. Duality. Dual simplex algorithm 1.3. Reoptimization of linear programming problems 1.4. Parametric linear programming 1.5. Transportation problems 1.6. Reoptimization of transportation problems 1.7. Parametric transportation problems 1.8. Special types of transportation problems Chapter 2. Elements of financial mathematics 2.1 . Simple interest 2.2 . Compound interest 2. 3. Annual installment payments (annuities) 2.4 . Repayment of loans and borrowings
Lecture, conversation, exemplification
Modelling and solving some medium complexity level problems, using the mathematical and computer sciences knoweledges.
Written paper 50%; mid-term test 30%; seminar activities 20%.
Bronson, G.,
Mathematics For Business, Independently published,
2016,
Camacho, L.,
Financial Matehematics, Independently published,
2015,
Carter, M.,
Mathematical Economics, MIT, Cambridge, 2001
Nering, E. D., Tucker, A. W.,,
Linear Programs and Related Problems, Academic Press, Boston, 1993
Nash, S. and Sofer, A.,,
Linear and Nonlinear Programming, McGraw-Hill, New York, 1996