![]() ![]() This module is a practical project-based module where you’ll immerse yourself in engineering projects and product analysis. You’ll consider the design and manufacture processes, materials, assembly, rapid prototyping, efficiency and tolerance, analysis of quality, product maintenance and safety, costs, sustainability, business and consumer needs. Through understanding the parts and materials involved in designing a product, you’ll explore how a product should be manufactured. Industrial Design and Product Case Studies Study a range of analytical and numerical techniques that are needed to solve mathematical models including the approximation of functions using series Fourier analysis numerical integration and differentiation methods and solutions of ordinary and partial differential equations. Engineering Modelling and Simulation Techniques You’ll learn how thermal energy is converted to and from other forms of energy and how it affects matter, and will study the principles and types of thermodynamic systems and processesĮxamine the theory of digital systems and gain hands-on experience integrating computing and electronics in order to solve practical problems. Study the principles of fluid (liquid and gas) motion and the transfer of heat from one system to another, and gain understanding of relationships between heat and other forms of energy. ![]() You’ll develop solid and dynamic problem-solving skills for mechanical components. Learn about principles of solid mechanics in the design and analysis of mechanical engineering components and systems, and the fundamentals of object motion and vibration. In term 3 the module will culminate in a 3-week Grand Challenge group project in which you will bring together the skills and techniques learned in this, and other, modules to solve an engineering challenge. In terms 1 and 2 the module is taught through a series of lectures and short projects, and includes industry training in Autodesk Fusion 360. Learn the physical and IT workshop skills required in the design and manufacture of products, including basic design methods and fabrication. These core mathematical skills will inform the discipline specific mathematic and computing skills you’ll use in the design, manufacture and testing of engineered products in the coming years. Gain the relevant mathematical and computational skills for analysis and design that underpin many areas of engineering. Engineering Mathematics and Technical Computing Study the aspects of materials, from a macroscopic perspective, including their key properties, and develop the core knowledge and skills that are essential to Engineers and to Engineering. We offer BEng (Hons) Mechanical Engineering (with foundation year) which you can apply for if you don't meet the entry criteria for this course. Who wouldn’t want that on their CV? Foundation Year With the focus firmly on problem-solving and live project work, we aim to give you three to four years of industry experience before you graduate. On this course you’ll be guided how to analyse and solve mechanical engineering problems by producing your own creative and innovative solutions using the latest technology. Our Mechanical Engineering courses are highly practical and use real examples and projects from industry. This all adds up to a confident, work ready graduate who has loads of career options – medical, environmental, automotive, aerospace, resource, advance manufacturing, alternative energy and many more. Recently students have worked on reverse engineering everyday objects, designing and building a Mars lander, and using industry standard software packages to design and build a model bridge. We’ll refine your creative problem solving skills through exploring the latest digital technologies and providing hands-on skills, as well as building your confidence and experience through live projects and our annual industry Grand Challenge.Īs well as the support you’ll get from expert staff and technicians, there’s the chance to set your own direction with a range of optional modules, online resources and projects. ![]() You’ll get the perfect blend of learning, in and outside of the classroom. ![]()
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