6B06113 Engineering Mathematics
The structure of the educational program
  • mastering the methods of constructing mathematical models of physical, natural, production processes;
  • application of algorithms and methods of computational mathematics;
  • mastering the skills necessary for computer modeling;
  • training in the development, creation and management of a database;
  • developing the ability to program in high-level object-oriented languages;
  • Create complex animated effects.
Specialized disciplines
  • Numerical methods 2
  • Mathematical methods for modeling physical processes
  • Advanced numerical methods
  • 3D Modeling and Design
  • Methods for solving extreme problems
  • Mathematical models of the energy saving problem of the underground pipeline
  • Laplace transform in engineering problems
  • Mathematical models of heat transfer in the multilayer region
  • Modeling Incorrect Tasks
  • Nonlinear extremal problems
Basic competency
  • Ability to create mathematical models using methods of modern information technologies;
  • The ability to simulate the problems of pollution of ecological systems and predict causal relationships in the ecological system;
  • Ability to model energy tasks;
  • Ability to build algorithms for solving problems;
  • Ability to apply application programs to solve problems;
  • Ability to build 3D visualization.
Leading positions
  • software engineer in organizational and management organizations;
  • Junior Researcher at research institutes;
  • math model developer;
  • Design organizations as a developer of mathematical and computer models, a mathematician-programmer;
  • production and management organizations as a mathematician-programmer;
  • analyst in a manufacturing company.
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