Warsaw University of Technology
B.Sc. Electric and Hybrid Vehicle Engineering
Warsaw, Poland
BSc
DURATION
8 semesters
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
10 Jul 2026*
EARLIEST START DATE
01 Oct 2026
TUITION FEES
EUR 3,660 / per semester **
STUDY FORMAT
On-Campus
* This is the planned application deadline, and it may be subject to changes. Please check in spring 2026 for updates.
** non-EU tuition | 4050 zł for EU students
Key Summary
Faculty of Automotive Construction and Machinery Engineering
Bachelor of Electric and Hybrid Vehicles Engineering
B.Sc. Electric and Hybrid Vehicles Engineering from Warsaw University of Technology will help you to become an engineer meeting the challenges of designing, operating, and servicing recently emerged electro-mechanical vehicles, which have been dominating the ecologically sustainable automotive market.
This field of study is dedicated to those who want to become engineers and meet the challenges of modern designing, operating, and servicing state-of-the-art recently emerged electro-mechanical vehicles, which have been dominating the ecologically conscious automotive market. The program provides students with multidisciplinary knowledge in complex technical far-transportation structures with systems of energy recuperation and accumulation. Analysis of fundamental physical and chemical processes, selection of nonconventional materials, and control methods are taught in classes and laboratories. A novel approach to the realization of the educational offer gives the graduate vital skills in the engineering of ecologically friendly electric and multi-source hybrid automobiles, including special and autonomic vehicles.
Student Ambassador: Alejandro from Mexico/ Student Ambassadors / Resources / Main page - WUT International Students Office
Sample modules
- Calculus
- Physics
- Mechanics
- Chemistry
- Structural Materials
- Manufacturing Technology
- Electrical, and Electronic Technology
- Computer Techniques
- Image Processing
- Strength of Materials
- Mechanical Vibration
- Finite Element Method
- Automatics, Diagnostics
- Mechatronics
- Vehicles and Drive Systems
- Drivetrain Power Electronics
- Energy Accumulation in Vehicles
- Hybrid Drives, CVT Transmissions
- Smart Structures, Batteries
- Ionics and Photovoltaics
- Magnetic Materials
- Ultra-Light Structures
- Fuel Cells, Environmental Protection
- Vehicle Recycling
The graduate is able to:
- build and analyse mathematical models of powertrain components, combine them in a computational model of a drive structure and conduct simulation studies to determine the parameters of electric or hybrid powertrains;
- design, test and troubleshoot simple multi-source energy-accumulating systems, intended for a variety of applications with the use of appropriate design and IT tools.
- The automotive industry, especially in the area of electric and hybrid drives
- The industry of working, road and handling machines in the above area
- Other sectors of the economy (transport, energy) – green and energy-efficient technologies
- Work related to designing, manufacturing, maintenance, and supervision