BSc (Hons) Motorsport Engineering

Program Overview

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The BSc (Hons) Motorsport Engineering program provides flexible online learning with self-paced modules, equipping students with specialized skills in race car design, simulation, and vehicle dynamics. Graduates are prepared for successful careers as fully qualified motorsport engineers, with opportunities for hands-on experience through the NMA Race Team and potential employment in top motorsport teams worldwide.

Program Outline

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Degree Overview:

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The BSc (Hons) Motorsport Engineering

is a program designed to equip students with the specialized skills and knowledge needed to thrive in the competitive global motorsport industry. Through flexible online learning with self-paced modules, the program allows individuals to study around work and family commitments while choosing their own start dates.

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Objectives:

• Provide students with the in-depth technical skills and understanding of motorsport engineering principles.
• Equip graduates with the ability to utilize industry-standard software and tools.
• Offer hands-on practical experience through opportunities with the NMA Race Team.
• Prepare graduates for successful careers as fully qualified motorsport engineers.

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Program Description:

The program focuses on developing expertise in various areas of motorsport engineering, including:

• Race car design and preparation
• R&D simulation and analysis
• Fundamentals of motorsport technology
• Fluid mechanics and thermodynamics
• Engine design, development, and simulation
• Vehicle dynamics and data acquisition
• Work experience and research project
• Advanced engine development
• Aerodynamics
• Hybrid & electric vehicles
• Final motorsport project

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Outline:

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Program Content:

The program covers a broad range of topics related to motorsport engineering, with a focus on practical application and real-world scenarios. Students will gain a comprehensive understanding of:

• Mathematical modeling and analysis for motorsport applications
• Race car design principles and procedures
• Advanced simulation and analysis tools for research and development
• Engineering fundamentals, material selection, and failure analysis
• Fluid mechanics and thermodynamics principles applied to motorsport
• Engine design, development, and simulation techniques
• Vehicle dynamics, suspension systems, and data acquisition
• Industry-standard practices for work experience and research projects
• Advanced engine development and testing methodologies
• Aerodynamic design and analysis using computational fluid dynamics
• Hybrid and electric vehicle technology and applications
• Final motorsport project showcasing research skills and software expertise

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Structure:

The program is delivered through online learning modules, offering flexibility and self-paced study. Students can choose their own start dates and complete the program in approximately 3 years.

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Course Schedule:

The program follows a modular structure, with each module lasting 30 credits. Students will typically complete one module per month, allowing them to progress at their own pace.

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Individual Modules:

• Mathematics for Motorsport: Develops essential mathematical skills for problem-solving and data analysis in motorsport.
• Race Car Design & Preparation: Explores the design process and preparation of race vehicles, including homologation regulations and component selection.
• R & D Simulation & Analysis: Introduces students to industry-standard CAD and simulation software for research and development in motorsport.
• Fluid Mechanics & Thermodynamics: Covers fluid mechanics and thermodynamics principles with application to heat transfer, aerodynamics, and engine design.
• Engine Design, Development & Simulation: Teaches students how to design, simulate, and analyze high-performance engines using advanced software tools.
• Vehicle Dynamics & Data Acquisition: Focuses on vehicle dynamics, suspension systems, data logging techniques, and race car set-up.
• Work Experience & Research Project: Provides students with the opportunity to gain practical experience in the motorsport industry and conduct a research project.
• Advanced Engine Development: Develops advanced analytical skills for engine testing and development, including data analysis and performance optimization.
• Aerodynamics: Teaches students how to design and analyze aerodynamic packages for race vehicles using computational fluid dynamics.
• Hybrid & Electric Vehicles: Explores the technology and applications of hybrid and electric vehicles in motorsport.
• Final Motorsport Project: A comprehensive project allowing students to showcase their knowledge and skills, focusing on a chosen area of research or development.

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Assessment:

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Assessment Methods:

• The program utilizes a variety of assessment methods, including:
• Tutor assessment: Individual assignments and coursework reviewed by tutors.
• Moderation by De Montfort University: External moderation to ensure academic standards are met.

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Assessment Criteria:

• Students are assessed on their understanding of the subject matter, their ability to apply theoretical knowledge to practical scenarios, and their performance in individual and group assignments.

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Teaching:

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Teaching Methods:

• The program utilizes a combination of teaching methods, including:
• Online lectures: Live and recorded lectures delivered by experienced industry professionals and academic staff.
• Practical exercises: Hands-on activities and projects to reinforce learning.

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Faculty:

• The program is taught by a team of experienced tutors and lecturers who are active in the motorsport industry.
This ensures that students receive relevant and up-to-date knowledge and skills.

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Careers:

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Potential Career Paths:

• Race engineer
• Data engineer
• Simulation engineer
• Hybrid & electric powertrain engineer
• Vehicle dynamics engineer
• Motorsport team manager
• Technical consultant

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Opportunities:

• Graduates are highly sought after by top motorsport teams, engineering companies, and research organizations worldwide.
• The program prepares students for a variety of career paths in the exciting and dynamic field of motorsport engineering.

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Outcomes:

• Graduates of the program have successfully secured employment in leading motorsport teams and organizations, including:
• Red Bull Racing
• Ferrari
• McLaren
• Williams F1 Team
• Mercedes AMG Petronas
• Toyota Gazoo Racing
• The program is awarded by De Montfort University Leicester (DMU), a recognized and respected academic institution.
• Students have the opportunity to join the NMA Race Team for race weekends, gaining valuable practical experience.
• The program offers a flexible and affordable option for individuals who want to pursue a career in motorsport engineering.
• The program is designed to meet the needs of the global motorsport industry, ensuring that graduates are equipped with the skills and knowledge to succeed in their chosen field.