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Course 2022-2023 a.y.

30449 - MATHEMATICS - MODULE 2 (APPLIED MATHEMATICS)

BESS-CLES
Department of Decision Sciences

Course taught in English

Go to class group/s: 13

BESS-CLES (9 credits - II sem. - OB  |  SECS-S/06)
Course Director:
MARGHERITA CIGOLA

Classes: 13 (II sem.)
Instructors:
Class 13: MARGHERITA CIGOLA


Class-group lessons delivered  on campus

Suggested background knowledge

A review of differential calculus and linear algebra is suggested.


Mission & Content Summary
MISSION

Modeling in applied science always requires mathematical and statistical tools. In particular, Economic Theory makes a large use of some classical mathematical topics such as Mathematical Programming and Dynamical Systems. The development of technology has increased computing power making manageable and convenient the use of many mathematical techniques. Notwithstanding, the implementation and the comprehension of any model needs the knowledge of the available tools. The course goal is providing the main mathematical and analytical tools which are used in models applied to Economics and Decision Theory.

CONTENT SUMMARY
  • Implicit functions.
  • Constrained optima; classical programming and differentiable non linear programming.
  • Integral Calculus
  • Complex Numbers
  • Eigendecomposition of a square matrix. Power and exponential matrices,
  • Dynamical systems; ordinary differential equations, finite difference equations. Glossary and properties.
  • Solving separable and linear autonomous equations.
  • Stability; the linear autonomous case, linearization method in the non linear autonomous case. Autonomous systems of dimension 1; phase and stairstep diagrams.

Intended Learning Outcomes (ILO)
KNOWLEDGE AND UNDERSTANDING
At the end of the course student will be able to...
  • Recognize the mathematical model and its main properties.
  • Describe a mathematical model and list the assumptions that must hold in order that the model may be correctly applied.
  • Select and reproduce the correct procedures for solving a static optimization problem, for computing integrals, for assessing the asymptotic behavior of a dynamical system and for finding its trajectories.
APPLYING KNOWLEDGE AND UNDERSTANDING
At the end of the course student will be able to...
  • Apply the learned calculus methods to solve an optimization problem, to compute integrals, to analyze the asymptotic behavior of a dynamical system, to compute the solutions of a differential/difference equation.
  • Demonstrate the main properties of a model.
  • Formulate in a proper way the assumptions which are required to apply the mathematical tool.

Teaching methods
  • Face-to-face lectures
  • Online lectures
  • Exercises (exercises, database, software etc.)
DETAILS

Teaching and learning activities for this course consist of (1) face-to-face-lectures and/or online lectures, (2) in class exercises.  

  1. During the lectures convenient examples and applications allow students to identify the quantitative patterns and their main logical-mathematical properties.
  2. The in class exercises allow students to properly apply the analytical tools in practice.

Assessment methods
  Continuous assessment Partial exams General exam
  • Written individual exam (traditional/online)
  •   x x
    ATTENDING AND NOT ATTENDING STUDENTS

    The exam is written. Each student can choose whether to take:

    General Exam: a single final exam (labelled with S). The General Exam is worth 100% of the final grade.

    Partial Exam:  2 partial written exams (labelled with I). Each partial written exam is worth 50% of the final grade (100% in total). 

    Both the General and the Partial written exams consists of open answer questions which aim to assess the students’ ability to:

    • Apply in a proper way the learned calculus methods in order to compute integrals, to solve optimization problems and differential/difference equations.
    • Describe the notions and the methods learned.
    • Justify in a proper manner the achieved conclusions.
    • Recognise and demonstrate the connections between the main concepts and their properties.

     


    Teaching materials
    ATTENDING AND NOT ATTENDING STUDENTS
    • S. CERREIA-VIOGLIO, M. MARINACCI, E. VIGNA, Principles of Mathematics and Economics, draft version (March 2022). Available on BBoard in PDF format.

    • R. K. SUNDARAM, A First Course in Optimization Theory, Cambridge University Press, 1996, ISBN: 978052149770.

    • M. CIGOLA, L. PECCATI (2019), Dynamical Systems, PDF available on Bboard.
    • Past written exams with solutions, PDF available on Bboard.
    Last change 25/11/2022 12:03