Master of Engineering in Mechanical Engineering / Biomedical Engineering

at University of Southampton - Boldrewood Innovation Campus United Kingdom

Civil engineering is all around us, from buildings and road planning, to water supply and coastal defence. This BEng Civil Engineering course provides a solid grounding in civil engineering design and application. We'll give you the skills to design and build creative solutions to real-world challenges. You'll develop the skills needed to become a successful engineer.

On this course you’ll learn essential principles, such as:

• Mechanics
• Structures
• Materials and fluids
• Geotechnics
• Hydraulics
• Structural design

You’ll study construction management and the real-world applications of civil engineering. This covers topics such as risk management and health and safety.

You'll have access to our extensive facilities, including:

• National Infrastructure Laboratory
• Design studios
• Professional manufacturing centre
• Hydraulics and geotechnics labs
• Heavy structures facilities

Design is integral to our courses, and we offer opportunities for laboratory sessions and design projects. These are based on the requirements of a real site and a real client. Our Design Show blog has examples of our students’ design work.

As part of this course you can:

• Apply analytical techniques and problem-solving skills to engineering problems
• Develop technical design skills, such as computer-aided design (CAD), model-making, and computer programming
• Take part in the Constructionarium challenge, where teams build scaled-down versions of famous structures
• Showcase your work in our annual Engineering Design Show

You can take this course with an additional year-long, paid placement. Apply with UCAS code H20P for the Industrial Placement Year option.

Study the latest maritime techniques, methods and software on this MSc in Advanced Computational Engineering in Maritime Engineering at the University of Southampton. Learn the theory and practice behind maritime computational engineering science as you take on practical design tasks and prepare how to work effectively with industry.

You’ll gain an advanced understanding of the fundamental principles, methods and applications of maritime engineering science.
 
On this pathway you'll also learn advanced computational methods incorporating: 

• Complied versus interpreted language
• Combining c-code with python
• Version control and one version control tool
• Remote and local use of linux computers
• Shell commands
• Symbolic methods and code generation

Maritime computational engineering covers topics such as advanced sensors and signal processing techniques for machinery condition monitoring. You’ll look at condition-monitoring strategies, leading-edge sensing methods and advanced signal processing techniques. You’ll also gain an introduction to condition-monitoring procedures and system integration. 
 
Optional study topics include aeroelasticity, which covers aeroelastic stability and response. A combination of theoretical and practical teaching will give you a solid understanding of the subject and its application to various aeronautical systems. You’ll get the chance to work with professional software tools currently used by large aerospace industries. 

Throughout your studies, you’ll learn how to solve engineering problems by taking account of social, technical, economic and environmental constraints.

Choosing the correct materials is crucial to the success or failure of an engineering project. On this 4-year, integrated master's, you'll explore the properties and uses of common and new mechanical engineering materials. You'll develop the skills to design materials and surfaces, from the atomic level up to their application. This advanced course will help you find a rewarding career as a Chartered Engineer.

This course focuses on mechanics, structures and materials, and how they are managed. It will inspire you to use your knowledge and skills to address real mechanical and material engineering needs in society, in areas like:

• Transport
• Housing
• Recreation
• Food processing
• Medicine

You'll explore material use, including their design and manufacture, and you'll study how they behave throughout their service.

As part of this course you can:

• Showcase your work in our annual Engineering Design Show
• Choose from a range of optional modules, including microstructural and surface characterisation, and aircraft structures
• Put your skills into practice with an individual project and final year group design project
• Work with students from other engineering specialisms

The course draws on research from the Engineering Materials Research Group, which is actively involved in a broad range of activities in the advanced materials field.

You can take this course with an additional year-long, paid placement. Apply with UCAS code H3H1 for the Industrial Placement Year option.

We're a designated university for the Defence Technical Undergraduate Scheme (DTUS).

Civil engineering is essential to the development of our society, from planning to construction. Our 4-year, integrated master's course goes beyond the 3-year degree, and lets you specialise in an area of your choosing. You'll develop the design, management and teamwork skills that employers look for. Major engineering companies often get involved in our group design projects.

This MEng Civil Engineering course follows the BEng Civil Engineering degree for the first 3 years. In the fourth year, you can choose to focus on specialist topics, including:

• Coastal and maritime engineering
• Earthquake engineering
• Bioenergy
• Transport modelling
• Waste resource management
• Architectural acoustics

The group project in year 4 lets you apply your conceptual engineering and scientific knowledge to an engineering design problem. As a team you’ll develop an idea through detailed design, experimentation, computer modelling and manufacture. Our Design Show blog has examples of our students’ design work.

You'll have access to our extensive facilities, including:

• National Infrastructure Laboratory
• Professional manufacturing centre
• Hydraulics and geotechnics labs
• Heavy structures facilities

As part of this course you can:

• Apply analytical techniques and problem-solving skills to engineering problems
• Develop technical skills, such as computer-aided design (CAD), model-making, surveying and computer programming
• Take part in the Constructionarium challenge, where teams build scaled-down versions of famous structures
• Showcase your work in our annual Engineering Design Show

You can take this course with an additional year-long, paid placement. Apply with UCAS code HH20 for the Industrial Placement Year option.

Learn to design helicopters, fixed-wing aircraft, and their avionic systems on our specialist integrated MEng Aeronautics and Astronautics / Airvehicle Systems Design course. You’ll study many advanced engineering, including the design and manufacture of fast-moving aircraft and spacecraft, before specialising on their systems, performance and optimisation requirements. This course is ideal for a career in air vehicle design.

Aeronautics and astronautics looks at the science, engineering and manufacture of aircraft and spacecraft, and how they operate within our atmosphere and in space.

You’ll study the general principles of aerospace engineering, then take more advanced modules specialising in advanced air vehicle systems and avionics systems design.

In Year 3 of this airvehicle systems design degree, you'll complete an individual research project and in Year 4 you’ll participate in a group design project.

You’ll get hands-on experience in our extensive facilities, which include:

• dedicated student design studios and workshops
• the largest wind tunnel in any UK university
• jet laboratory with supersonic ramjet, turbojet and rocket engine
• Boeing flight simulator
• state-of-the-art space propulsion facilities
• professional manufacturing centre

As part of this course you can:

• showcase your work in our annual Engineering Design Show
• attend site visits to experience engineering in practice
• apply your engineering knowledge to solve a real-world problem

You can take this course with an additional year-long, paid placement. Apply with UCAS code H41H for the Industrial Placement Year option.

Explore the relationships between transport systems, the people who use and operate them, and the wider world, with our MSc Transportation Planning and Engineering: Behaviour. This course offers modules in human factors in transport engineering, and the interactions between transport, energy systems, and the environment. You can study this course on a full-time, part-time or distance-learning basis.

If you want a career in the transport industry or you're an experienced transport professional interested in enhancing your skills, this degree is ideal.

This master’s degree in transportation planning and engineering: behaviour covers everything from the fundamentals of modelling and economics, through to the application of software and planning tools using real life examples from around the world. It’s the perfect way to improve your capabilities and career prospects in the transport sector.

Your course highlights include field trips and a mock public inquiry, where you'll learn about  public engagement and the role of public opinion in the transport planning process.

Your taught learning includes modules on:

• Transport economics
• Transport data analysis and techniques
• Transport planning: policy and governance
• Transport modelling
• Human factors in engineering
• Transport, energy and the environment

You’ll also have the chance to choose from a range of modules including:

• Highway and traffic engineering
• Railway engineering and operations
• Transport management and safety
• Logistics systems operations

You’ll gain experience using a range of transport-related software and you’ll be able to hear directly from a range of industry guest speakers. You’ll also carry out an individual research project on a topic of your choice.

Learn how to apply your mechanical engineering skill in a range of fields, from orthopaedics to automobile systems. Explore real-world problems with practical project work. You'll learn about mechanics, structures and materials, and study design and computing - all vital for a career in this industry.

Studying Mechanical Engineering involves learning how to take a product from initial concept, to design and manufacture.

You'll cover the essential principles of engineering, and learn about:

• Modelling and computing
• Systems design
• Law
• Management

In your third year you'll complete an individual research project using many of the concepts you’ve learnt during the course. Projects range from system and product design to the mechanical testing of composite materials.

As part of this course you can:

• Use our design workshops and studios
• Showcase your work in our annual Engineering Design Show
• Develop your design and computing skills
• Apply your mechanical engineering skills to your choice of specialist areas, from robotic systems to sustainable energy and power generation
• Go on site visits to experience engineering in practice

We're a designated university for the Defence Technical Undergraduate Scheme (DTUS).

You can take this course with an additional year-long, paid placement. Apply with UCAS code H30P for the Industrial Placement Year option.

Learn about the design and manufacture of aircraft, avionics, race cars and rockets, and spend a semester studying overseas. MEng Aeronautics and Astronautics / Semester Abroad examines many aspects of aerospace engineering, including the design and manufacture of fast-moving aircraft and spacecraft, before specialising in more focused topics in the last 2 years.

Aeronautics and Astronautics looks at the science, engineering and manufacture of aircraft and spacecraft. You'll learn how they operate within our atmosphere and in space.

You’ll study the principles of aerospace engineering and in year 3 you’ll study aerospace engineering abroad in either semester one or two. You’ll enrich your skills and experience a new culture at one of our partner universities in:

• France
• Italy
• Sweden
• Netherlands
• USA

In year 3 you will also complete an individual research project and in year 4 you’ll participate in a group design project.

You’ll get hands-on experience in our extensive facilities, which include:

• the largest wind tunnel in any UK university
• dedicated student design studios and workshops
• state-of-the-art space propulsion facilities
• jet laboratory with supersonic ramjet, turbojet and rocket engine
• Boeing flight simulator
• professional manufacturing centre

As part of this course you can:

• Showcase your work in our annual Engineering Design Show
• Attend site visits to experience engineering in practice
• Apply your engineering knowledge to solve a real-world problem

As well as the semester abroad, you can also take this course with an additional year-long, paid placement. Apply with UCAS code H4HH for the Industrial Placement Year option.

Combine your engineering skills with biology and medicine. Learn to design, develop and test medical devices and specialise in areas that interest you, like implants, biomaterials and orthopaedics. Biomedical engineering is a growing field, so this course will help you find a rewarding career as a chartered engineer.

The first 2 years of this specialist course follow the same content to our degree in Mechanical Engineering. In the third and fourth years, you can focus on topics such as the mechanics of the human body, and the human factors in engineering.

You'll use our design workshops and studios and gain practical experience on a variety of projects.

As part of this course you can:

• Use our range of engineering facilities
• Showcase your work in our annual Engineering Design Show
• Learn about the computational tools that help doctors analyse large amounts of patient data
• Put your skills into practice with an individual project and final year group design project
• Work with students from other engineering specialisms

You can take this course with an additional year-long, paid placement. Apply with UCAS code H316 for the Industrial Placement Year option.

We're a designated university for the Defence Technical Undergraduate Scheme (DTUS).

Learn to design future aircraft, race cars, satellites and rockets, and take your engineering passion to new heights. Our astronautics and aeronautics undergraduate degree covers advanced aerospace engineering. You'll learn how to design and manufacture fast-moving aircraft in the Earth’s atmosphere and outer space.

The course looks at the science, engineering and manufacture of aircraft, jet engines, race cars and spacecraft. You'll learn how they operate within our atmosphere and in space. Your degree will be aligned to the UK Space Agency Civil Space Strategy.

You'll study the principles of aerospace engineering including aerodynamics, astronautics and propulsion. You'll also explore the economic, legal and environmental issues around aircraft and spacecraft. You'll get hands-on experience in extensive facilities, which include:

• Dedicated student design studios and workshops
• The largest wind tunnel in any UK university
• State-of-the-art space propulsion facilities
• Jet laboratory with supersonic ramjet, turbojet and rocket engine
• Boeing flight simulator
• Professional manufacturing centre

As part of this astronautics and aeronautics BEng degree you can:

• Take part in practical design modules in every year of your degree
• Design, build and test aircraft, spacecraft and their wider components
• Take part in a flight-testing course, on board a flying laboratory aircraft
• Showcase your work in our annual Engineering Design Show
• Attend site visits to experience engineering in practice

You can take this course with an additional year-long, paid placement. Apply with UCAS code H40P for the Industrial Placement Year option.