What better place to hone your engineering skills than the automotive capital of the world? You will build upon your knowledge of engineering science and of your particular knowledge of Powertrain and Chassis Systems (KB5002) to develop a knowledge and understanding of the legislation relating to vehicle emissions and fuel economy, of the drive cycles used to determine that information and of the technologies that contribute to the reduction of harmful emissions.
In Engineering – Pass overall with 60 credits, 45 at Level 3 and 15 at Level 2, including with a minimum of 12 credits at Merit or Distinction with 9 credits of these credits from Mathematics units and 3 credits in Science units. Apply ordinary differential equations and numerical methods to problems in an engineering context. Apply their knowledge and understanding for developing practical skills for solving problems, conducting investigations, and designing engineering devices and processes. Tech Mahindra is a one stop shop for embedded engineering and integration services for OEMs and suppliers with an array of specialized engineering services. Starting from the 2010/11 academic year the course is held entirely in English, taking the name of MSc degree in Automotive Engineering.
Gain an understanding of automotive ignition systems, the function and operation of a vehicle braking system, security, and the identification and repair of transmissions, drivelines and final drives. The Automotive courses at Loughborough were the first such courses in the UK and have established a national and international reputation for the quality of the courses and the graduates produced. The first year of the course provides a foundational grounding in engineering as well as introducing aspects of vehicle design. Demonstrate the ability to integrate knowledge from different branches, and handle complexity, and to understand applicable techniques and methods, their limitations and the non-technical implications of engineering practice. Apply new and emerging technologies related to the field of automotive engineering.
To provide further knowledge on the relationship between microstructure, mechanical properties and manufacturing processes for a range of engineering materials, thus enabling optimal utilisation of materials for specific engineering applications and select best manufacturing process.
Skilled automotive engineers are required to meet the ever-increasing demands on high-quality individual mobility and transportation of people and goods, especially when considering global warming, environmental challenges and not least the vision of zero accidents.