At our university, we believe in a hands-on approach to learning. Our motorcycle engineering degree blends theory with practical experience, ensuring you gain the skills needed to excel in the motorcycle engineering industry. You’ll work on real-world projects, preparing you for a successful career.
Year 1
In the first year, you will be introduced to core mechanical engineering principles and design engineering. You’ll learn to use Computer-Aided Design and Data Acquisition tools. This foundation will prepare you for more advanced topics and give you the basic skills needed for practical experience in the field.
Compulsory
Engineering Skills (20 credits)
Electrical Principles (10 credits)
Engineering Design (10 credits)
Mechanics and Dynamics (10 credits)
Motorcycle Technology (10 credits)
Pure Mathematics and Statistics (10 credits)
Engineering Mathematics (10 credits)
Introduction to Thermodynamics and Fluids (10 credits)
Materials and Manufacturing (10 credits)
Powertrain Technology (10 credits)
Vehicle Electronics (10 credits)
Year 2
The second year focuses on high-performance motorcycles and their ride and handling requirements. You’ll study vehicle dynamics, powertrain performance and efficiency, and aerodynamics. Advanced simulation tools like Computational Fluid Dynamics (CFD) and Finite Element Analysis (FEA) will be used to investigate and enhance motorcycle designs.
Compulsory
Project Management (10 credits)
Electric Vehicle Powertrains (10 credits)
Stress Analysis (10 credits)
Vehicle Aerodynamics (10 credits)
Motorcycle Dynamics (10 credits)
Performance Internal Combustion Engines (10 credits)
Group Design Project (10 credits)
Vehicle Control Systems (10 credits)
Computer Aided Engineering (10 credits)
Numerical Computation (10 credits)
Thermodynamics (10 credits)
Motorcycle Data Acquisition (10 credits)
Year 3
Year in Industry
Year 4
In your final year, you’ll delve into specialist areas such as advanced engine design, powertrain design, and electrical control. You will work on independent and group projects, applying your knowledge to real-life Motorcycle applications. The course also covers the environmental aspects of design and technology, preparing you for a broad range of employment opportunities.
Compulsory
Independent Project (40 credits)
Automotive Materials and Processes (10 credits)
Structural Design and Analysis (10 credits)
Advanced Engine Performance (10 credits)
Motorcycle Simulation (10 credits)
Engineering Sustainability, Ethics and Inclusion (10 credits)
Computational Fluid Dynamics (10 credits)
Engineering Management (10 credits)
Motorcycle Design and Innovation (10 credits)