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Automotive Engineering (along with transport engineering) is a branch of vehicle engineering, incorporating elements of mechanical, electrical, electronic, software, and safety engineering. It is applied to the design, manufacture, and operation of motorcycles, automobiles, and trucks, and their respective engineering subsystems. Engineering attributes and disciplines that are important to the Automotive Engineer field are included in the programme:
vehicle safety engineering;
traffic safety engineering;
fuel economy and emissions;
vehicle mechanics and dynamics;
NVH (noise, vibration, harshness) engineering;
vehicle electronics;
transmission quality
durability and corrosion engineering;
ergonomics;
vehicle climate control;
quality management.
etc.
Graduates will exhibit:
Fundamental knowledge in mathematics, science, and engineering.
Proficiency in designing and conducting experiments, interpreting and analyzing data, and reporting results.
The capability to design automotive systems or their individual components.
The ability to collaborate effectively on engineering and science laboratory teams, as well as on multidisciplinary design teams.
Proficiency in identifying, formulating, and solving engineering problems.
An understanding of their professional and ethical responsibilities.
Additionally, graduates will:
Demonstrate confidence in applying engineering solutions within global and societal contexts.
Possess the capacity for self-education and a clear understanding of the value of lifelong learning.
Be well-rounded individuals with an awareness of the impact of engineering on society, showcasing familiarity with contemporary issues.
Have knowledge of modern engineering software tools and equipment to analyze automotive engineering problems.
Acquire knowledge and understanding of the scientific principles and methodology necessary to support education in automotive engineering. This includes an appreciation of its scientific and engineering context and an ability to comprehend future developments and technologies.
Gain knowledge and understanding of the mathematical principles essential for education in automotive engineering. This enables the proficient application of mathematical methods, tools, and notations in the analysis and resolution of engineering problems.
Apply and integrate knowledge and understanding from other engineering disciplines to support the study of automotive engineering.
Programme overview
Degree
BEng
Study Level
Undergraduate
Study Mode
On Campus
Automotive Engineering (along with transport engineering) is a branch of vehicle engineering, incorporating elements of mechanical, electrical, electronic, software, and safety engineering. It is applied to the design, manufacture, and operation of motorcycles, automobiles, and trucks, and their respective engineering subsystems. Engineering attributes and disciplines that are important to the Automotive Engineer field are included in the programme:
vehicle safety engineering;
traffic safety engineering;
fuel economy and emissions;
vehicle mechanics and dynamics;
NVH (noise, vibration, harshness) engineering;
vehicle electronics;
transmission quality
durability and corrosion engineering;
ergonomics;
vehicle climate control;
quality management.
etc.
Graduates will exhibit:
Fundamental knowledge in mathematics, science, and engineering.
Proficiency in designing and conducting experiments, interpreting and analyzing data, and reporting results.
The capability to design automotive systems or their individual components.
The ability to collaborate effectively on engineering and science laboratory teams, as well as on multidisciplinary design teams.
Proficiency in identifying, formulating, and solving engineering problems.
An understanding of their professional and ethical responsibilities.
Additionally, graduates will:
Demonstrate confidence in applying engineering solutions within global and societal contexts.
Possess the capacity for self-education and a clear understanding of the value of lifelong learning.
Be well-rounded individuals with an awareness of the impact of engineering on society, showcasing familiarity with contemporary issues.
Have knowledge of modern engineering software tools and equipment to analyze automotive engineering problems.
Acquire knowledge and understanding of the scientific principles and methodology necessary to support education in automotive engineering. This includes an appreciation of its scientific and engineering context and an ability to comprehend future developments and technologies.
Gain knowledge and understanding of the mathematical principles essential for education in automotive engineering. This enables the proficient application of mathematical methods, tools, and notations in the analysis and resolution of engineering problems.
Apply and integrate knowledge and understanding from other engineering disciplines to support the study of automotive engineering.
Admission Requirements
15 Jun 2026
4 Years
Sep
Candidates are required to submit an essay(s) for acceptance
Tuition fees
Domestic
4,500 EUR
International
4,950 EUR
Scholarships
TUITION-FREE AND PARTIAL SCHOLARSHIPS FOR BACHELOR'S DEGREE
TUITION-FREE AND PARTIAL SCHOLARSHIPS FOR BACHELOR'S DEGREE
Automotive Engineering
Plytinės, Vilnius, Lithuania
48 monthsProgramme duration
4,950 EURTuition Fee/year
15 Jun, 2026Application Deadline
1Scholarships
Programme overview
Degree
BEng
Study Level
Undergraduate
Study Mode
On Campus
Graduates will exhibit:
- Fundamental knowledge in mathematics, science, and engineering.
- Proficiency in designing and conducting experiments, interpreting and analyzing data, and reporting results.
- The capability to design automotive systems or their individual components.
- The ability to collaborate effectively on engineering and science laboratory teams, as well as on multidisciplinary design teams.
- Proficiency in identifying, formulating, and solving engineering problems.
- An understanding of their professional and ethical responsibilities.
Additionally, graduates will:Programme overview
Degree
BEng
Study Level
Undergraduate
Study Mode
On Campus
Graduates will exhibit:
- Fundamental knowledge in mathematics, science, and engineering.
- Proficiency in designing and conducting experiments, interpreting and analyzing data, and reporting results.
- The capability to design automotive systems or their individual components.
- The ability to collaborate effectively on engineering and science laboratory teams, as well as on multidisciplinary design teams.
- Proficiency in identifying, formulating, and solving engineering problems.
- An understanding of their professional and ethical responsibilities.
Additionally, graduates will:Admission Requirements
Tuition fees
Domestic
International
Scholarships
TUITION-FREE AND PARTIAL SCHOLARSHIPS FOR BACHELOR'S DEGREE
Value
100% tuition fee waiver
Deadline
20 Apr 2026
Application requirements
QS Event Attendance is NOT required
Entry requirements
You must be admitted to this school to be awarded
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