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Introducing Warwick School of Engineering
ADVANCED MECHANICAL ENGINEERING
MSc Advanced Mechanical Engineering
1 year full time | Course code: H341
Accrediting institutions:
TM
FOCUS ON THE KEY SKILLS REQUIRED BY THE MODERN MECHANICAL ENGINEER.
Our MSc Advanced Mechanical Engineering allows students to develop the versatility and depth of knowledge to deal with new and unusual challenges across a wide range of disciplines, within engineering and beyond. Teaching is underpinned by research in automotive systems, biomedical engineering, solid and fluid mechanics, electrical and thermal energy systems, energy conversion/storage and sustainable cities.
Core modules will provide advanced knowledge in fundamental topics of mechanical engineering and will also allow you to develop skills required to execute engineering projects involving multiple stakeholders. Optional modules allow you to select complementary topics that are of particular interest to you. You will also complete an individual research project: an in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor.
Previous graduates have gone on the work for companies such as Arup, Rolls-Royce and Siemens. Others have chosen to continue their studies by doing a PhD at Warwick or elsewhere.
"This course has offered me an equally challenging and rewarding opportunity to develop my teamwork and software skills, and mechanical engineering knowledge. I have also been impressed with the university's dynamic response to the pandemic, which has provided me with security in my learning, in a time of great uncertainty.”
Jack, MSc Advanced Mechanical Engineering student ENTRY REQUIREMENTS
A minimum of a 2.ii undergraduate degree (or equivalent) in a relevant branch of engineering or science Maths and English language requirements also apply: see warwick.ac.uk/ame for more information.
MODULES The MSc degree (180 credits) comprises:
• Eight taught modules (15 credits each) • Research project (60 credits)
Core modules
• Computational Fluid Dynamics • Precision Engineering and Microsystems • Dynamic Analysis of Mechanical Systems • Heat Transfer Theory and Design • Mechanical Engineering Group Design • Research Methods and Professional Skills
Examples of optional modules
• Fluid Mechanics for Mechanical Engineers • Finite Element Methods • Renewable Energy • Biomechanics
RESEARCH PROJECT
An in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor.
FURTHER INFORMATION warwick.ac.uk/engineering
We are constantly evolving our courses to keep up with developments in engineering and requirements for industry, so it is important you check our website for the most up-to-date information on module availability.
BIOMEDICAL ENGINEERING
MSc Biomedical Engineering
1 year full time | Course code: H800
Accrediting institutions:
ENTRY REQUIREMENTS
A minimum of a 2.ii undergraduate degree (or equivalent) in a relevant branch of engineering or science Maths and English language requirements also apply: see warwick.ac.uk/bioe for more information.
DEVELOP STATE-OF-THE-ART KNOWLEDGE AND UNDERSTANDING OF BIOMEDICAL ENGINEERING AT POSTGRADUATE LEVEL.
Warwick School of Engineering has a unique systems approach to biomedical research and teaching. Our MSc Biomedical Engineering delivers advanced modules developed across disciplines incorporating biomedical signal processing, medical imaging, predictive modelling, medical device design, electronics, communication, software, hardware, systems thinking and machine intelligence.
In addition you will be assigned an in-depth individual project, which will allow you to work closely with an academic on state-of-the art biomedical engineering research and innovation, often linked with industry, and with cutting-edge areas of application across the biomedical field.
The course prepares students for careers in advanced biomedical engineering. This includes biomedical engineering research institutions, medical device manufacturers, medical device regulators, and clearly hospitals, where biomedical engineers oversee medical device clinical trials, purchasing and maintenance as responsible for clinical engineering services.
"The Biomedical MSc at Warwick has given me the opportunity to explore a wide range of topics within the field, as well as getting hands on experience, applying the knowledge gained in lectures. As well as finding this very interesting, it gave me a competitive advantage when looking for a job."
Charlotte, MSc in Biomedical Engineering graduate MODULES The MSc degree (180 credits) comprises:
• Eight taught modules (15 credits each) • Research project (60 credits)
Core modules
• Research and Professional Skills in Biomedical and Clinical
Engineering • Biomedical Imaging and Medical Devices • Medical Device: Design, Maintenance and Assessment • Biomedical Systems Modelling
Examples of optional modules
• Biomechanics • Biomedical Signal Processing • Systems Modelling and Control • Affective Computing • Signal Processing • Computational Intelligence in Biomedical Engineering • Biomaterials, Tissue Engineering and Regenerative
Medicine • Computational Synthetic and Systems Biology
RESEARCH PROJECT
An in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor.
FURTHER INFORMATION warwick.ac.uk/engineering
We are constantly evolving our courses to keep up with developments in engineering and requirements for industry, so it is important you check our website for the most up-todate information on module availability.
