Electric and Hybrid Vehicle Engineering
Electric and Hybrid Vehicle Engineering field of study (IPEH) is appropriate for those who want to become engineers working in the fields of intensive science and technology development, ready to work on electro-mechanical drive construction, in particular for hybrid and electric vehicles including special vehicles.
Education in this field of study allows for gaining multidisciplinary knowledge necessary for design and technical support for complex technical systems with energy-accumulation in view of the analyses of basic physicochemical processes, applying non-conventional materials and automatic control.
Modern approach to the educational process provides the graduate with indispensable basic knowledge, extended in the scope appropriate to technical complexity of contemporary environmentally-friendly vehicles, but mainly to skills in engineering design analysis.
The graduate has knowledge of basic science issues in the area of electric and hybrid drives and knowledge of modern materials and component technology indispensable for practical implementation of electric and hybrid drives.
The Electric and Hybrid Vehicle Engineering field of study is available as BSc studies of the full-time study mode.
The following specialisation areas are offered for the first-cycle (BSc) studies in English:
Electric and Hybrid Vehicle Engineering - course elements library for the undergraduate level
Module title | Semester | ECTS | ||||||
---|---|---|---|---|---|---|---|---|
1 | 2 | 3 | 4 | 5 | 6 | 7 | ||
Common subjects | ||||||||
Analysis I | 60 | 5 | ||||||
Algebra | 45 | 4 | ||||||
Basics of Engineering Drawing and Descriptive Geometry | 45 | 3 | ||||||
Structural Materials | 45 | 3 | ||||||
Computer Techniques I | 60 | 5 | ||||||
Introduction to Geometric Modelling | 15 | 1 | ||||||
Environmental Protection | 30 | 2 | ||||||
Workshop | 15 | 1 | ||||||
Chemistry | 30 | 2 | ||||||
Physics I | 30 | 2 | ||||||
History of Technology | 15 | 1 | ||||||
Intellectual Property + Health and Safety | 15 | 1 | ||||||
Analysis II | 60 | 5 | ||||||
Differential Equations | 60 | 5 | ||||||
Electrical and Electronics Engineering I | 45 | 4 | ||||||
Basics of Engineering Drawing and Descriptive Geometry | 45 | 3 | ||||||
Theoretical Mechanics I | 60 | 5 | ||||||
Manufacturing Technology | 45 | 3 | ||||||
Structural Materials Laboratory | 15 | 1 | ||||||
Geometric Modelling | 15 | 1 | ||||||
Physics II | 30 | 2 | ||||||
Computer Techniques Laboratory | 15 | 1 | ||||||
Theoretical Mechanics II | 60 | 5 | ||||||
Strength of Materials | 60 | 5 | ||||||
Electrical and Electronics Engineering II | 30 | 2 | ||||||
Theory of Machines and Automatic Control | 45 | 4 | ||||||
Metrology and Interchangeability | 30 | 2 | ||||||
Advanced Geometry Modelling | 15 | 1 | ||||||
Introduction to Mechatronics | 30 | 2 | ||||||
Ionics and Photovoltaics | 45 | 3 | ||||||
Introduction to Microprocesor Systems | 30 | 2 | ||||||
Introduction to Machine Design I | 60 | 4 | ||||||
Project on Machine Design I | 30 | 2 | ||||||
Mechanical Vibrations | 45 |