• Goldsmiths, University of London Featured Masters Courses
  • Xi’an Jiaotong-Liverpool University Featured Masters Courses
  • New College of the Humanities Featured Masters Courses
  • Cardiff University Featured Masters Courses
  • Coventry University Featured Masters Courses
  • University of Derby Online Learning Featured Masters Courses
  • St Mary’s University, Twickenham Featured Masters Courses
  • University of Glasgow Featured Masters Courses
University of Southampton Featured Masters Courses
Queen’s University Belfast Featured Masters Courses
University of Hertfordshire Featured Masters Courses
Queen’s University Belfast Featured Masters Courses
FindA University Ltd Featured Masters Courses
United Kingdom
Wrexham×
0 miles
Engineering×

Full Time MSc Degrees in Engineering, Wrexham, United Kingdom

  • Engineering×
  • United Kingdom
  • Wrexham×
  • MSc×
  • Full Time×
  • clear all
Showing 1 to 9 of 9
Order by 
Wrexham Glyndwr University Engineering
Distance from Wrexham: 0 miles
With the global agenda on climate change focusing on the role of renewable and sustainable technologies and energy, this course provides you with a dynamic and exciting overview of this constantly changing industry. Read more
With the global agenda on climate change focusing on the role of renewable and sustainable technologies and energy, this course provides you with a dynamic and exciting overview of this constantly changing industry. The course provides an up-to-date overview of all the major renewable energy sources. This includes the engineering applications of clean energy, energy economics and markets, as well as socio-economic, energy security ad political issues.

Key Course Features

-The course looks at the engineering aspects of clean energy, energy economics and markets. The cost/ benefit/ tariff/risk analysis of renewables is compared with traditional fossil fuel and nuclear energy sources. Socio-economic, energy security and political issues are addressed as well as environmental factors of different energy sources.
-The MSc in Renewable Engineering and Sustainable Energy is accredited by the Institute of Engineering and Technology (IET) and Energy Institute (EI), and provides you with the required training for registering for Chartered Engineer status.

What Will You Study?

FULL-TIME MODE (SEPTEMBER INTAKE)
The taught element, Part One, of the programmes will be delivered in two 12 week trimesters and each trimester has a loading of 60 credits.

The six taught modules will have lectures and tutorials/practical work on a weekly basis. The expected timetable per module will be a total of 200 hours, which includes 40 hours of scheduled learning and teaching hours and 160 independent study hours.

Part Two will then take a further 15 weeks having a notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

FULL-TIME MODE (JANUARY INTAKE)
For the January intake, students will study three specialist modules first during the second trimester from January to May.

Other three common modules the students will study in the first trimester of the next academic year from September to January. On successful completion of the taught element of the programme the students will be progressed to the Part Two, MSc dissertation to be submitted in April/May.

PART-TIME MODE
The taught element, part one, of the programmes will be delivered in two academic teaching years. 80 credits or equivalent worth of modules will be delivered in the first year and 40 credits or equivalent in the second year.

The part time students would join the full time delivery with lectures and tutorials/practical work during one day on a weekly basis. The dissertation element (i.e. Part Two) will start in trimester 2 taking a further 30 weeks having a total notional study time of 600 hours.

During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

AREAS OF STUDY INCLUDE
-Engineering Research Methods
-Sustainable Design & Innovation
-Engineering Systems Modelling & Simulation
-Control Systems Engineering
-Renewable Engineering
-Renewables: Environment, economic, social and political.
-Dissertation

The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Assessment and Teaching

You will be assessed throughout your course by a variety of methods including portfolios, presentations and, for certain subjects, examinations.

Career Prospects

The Engineering Council now requires a Chartered Engineer to be qualified to Masters level or its equivalent, so there has never been a better time to consider studying for an engineering masters qualification. This course has been tailored to meet the needs of employers in this area, for you to be able to gain career advancement or specialise in renewable energy.

The Careers & Zone at Wrexham Glyndŵr University is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

Read less
Wrexham Glyndwr University Engineering
Distance from Wrexham: 0 miles
Electrical power systems continue to advance and develop across industrial and domestic applications,with almost half of global electrical energy thought to be consumed by electric motors ad motion devices. Read more
Electrical power systems continue to advance and develop across industrial and domestic applications,with almost half of global electrical energy thought to be consumed by electric motors ad motion devices.

As technology continues to develop in these sectors, the need for engineers with relevant, contemporary skills to work with these systems continues to grow. To reflect this demand,this course focuses on subjects in system modelling and simulation, control engineering,plus electrical power systems design and analysis.

Featured specialisms include modern power electronics and drive systems,combined with their controlling mechanisms and modelling using MATLAB software and state space models.

Key Course Features

-Specialism's within this programme feature modern power electronics and drive systems combined with their controlling mechanisms and modelling using MATLAB and state space models.
-The MSc in Electrical Power Engineering is accredited by Institute of Engineering and Technology (IET) and Energy Institute (EI), and provides you with the required training for registering for Chartered Engineer status.

What Will You Study?

FULL-TIME MODE (SEPTEMBER INTAKE)
The taught element, Part One, of the programmes will be delivered in two 12 week trimesters and each trimester has a loading of 60 credits. The six taught modules will have lectures and tutorials/practical work on a weekly basis. The expected timetable per module will be a total of 200 hours, which includes 40 hours of scheduled learning and teaching hours and 160 independent study hours.

Part Two will then take a further 15 weeks having a notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

FULL-TIME MODE (JANUARY INTAKE)
For the January intake, students will study three specialist modules first during the second trimester from January to May. Other three common modules the students will study in the first trimester of the next academic year from September to January.

On successful completion of the taught element of the programme the students will be progressed to the Part Two, MSc dissertation to be submitted in April/May.

PART-TIME MODE
The taught element, part one, of the programmes will be delivered in two academic teaching years. 80 credits or equivalent worth of modules will be delivered in the first year and 40 credits or equivalent in the second year.

The part time students would join the full time delivery with lectures and tutorials/practical work during one day on a weekly basis. The dissertation element (i.e. Part Two) will start in trimester 2 taking a further 30 weeks having a total notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

AREAS OF STUDY INCLUDE
-Engineering Research Methods
-Sustainable Design & Innovation
-Engineering Systems Modelling & Simulation
-Control Systems Engineering
-Electrical Power Systems Analysis & Design
-Power Electronics & Drive Systems
-Dissertation

The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Assessment and Teaching

You will be assessed throughout your course by a variety of methods including practical work, portfolios, presentations and, for certain subjects, examinations.

Career Prospects

The Careers & Zone at Wrexham Glyndŵr University is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

Read less
Wrexham Glyndwr University Engineering
Distance from Wrexham: 0 miles
The aerodynamics and handling performances of aircraft are amongst the most challenging aspects of aircraft designs. Take your expertise of the cutting-edge aeronautics industry to the next level with our course - focused on developing your understanding of advanced aerodynamics, materials and technologies. Read more
The aerodynamics and handling performances of aircraft are amongst the most challenging aspects of aircraft designs.

Take your expertise of the cutting-edge aeronautics industry to the next level with our course - focused on developing your understanding of advanced aerodynamics, materials and technologies.

The MSc in Aeronautical Engineering will enable you to develop a deep understanding and solid skills in aerodynamics and aerodynamic design of aircraft. Grasp detailed knowledge and application principles of composite materials and alloys, critically review and assess the application and practice of advanced materials in modern aircraft.

You will have access to our state-of-art Merlin flight simulator for design and testing your aircraft and will learn and use cutting-edge design, analysis and simulation software: MATLAB/Simulink, CATIA v5, ANSYS, and ABAQUS. You will also have access to subsonic and supersonic wind tunnel facilities and rapid prototyping facilities.

Key Course Features

-Wrexham Glyndŵr University is located nearby to one of the largest aircraft company in the world, Airbus and also has close links with aviation industries, such as Rolls-Royce, Raytheon and Magellan.
-The MSc in Aeronautical Engineering is accredited by Royal Aeronautical Society (RAeS), Institute of Engineering Technology (IET) and the Institution of Mechanical Engineers (IMechE), and provides you with the required training for registering for Chartered Engineer status.

What Will You Study?

FULL-TIME STUDY (SEPTEMBER INTAKE)
The taught element, Part One, of the programmes will be delivered in two 12 week trimesters and each trimester has a loading of 60 credits.

You will cover six taught modules which include lectures, tutorials and practical work on a weekly basis. The expected timetable per module will be a total of 200 hours, which includes 40 hours of scheduled learning and teaching hours and 160 independent study hours.

Part Two will then take a further 15 weeks having a notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

FULL-TIME MODE (JANUARY INTAKE)
For the January intake, students will study the three specialist modules first during the second trimester from January to May. The three core modules will be studied in the first trimester of the next academic year from September to January.

On successful completion of the taught element of the programme the students will progress to Part Two, MSc dissertation to be submitted in April/May.

PART-TIME MODE
The taught element, part one, of the programmes will be delivered over two academic teaching years. 80 credits or equivalent worth of modules will be delivered in the first year and 40 credits or equivalent in the second year. The part time students would join the full time delivery with lectures and tutorials/practical work during one day on a weekly basis.

The dissertation element will start in trimester 2 taking a further 30 weeks having a total notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

AREAS OF STUDY INCLUDE:
-Engineering Research Methods
-Sustainable Design & Innovation
-Engineering Systems Modelling & Simulation
-Advanced Composite Materials
-Applied Aerodynamics
-Flight Dynamics & Controls
-Dissertation

The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Assessment and Teaching

You will be assessed throughout your course through a variety of methods including portfolios, presentations and, for certain subjects, examinations.

Career Prospects

The courses will give you the chance to advance your career to management levels. You might also consider consultancy, research and development, testing and design positions within the aeronautical industry. Airbus is a classic example of an employer excelling in this field in the north Wales region.

The Careers & Zone at Wrexham Glyndŵr University is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

Read less
Wrexham Glyndwr University Engineering
Distance from Wrexham: 0 miles
Discover and develop the contemporary knowledge ad skills required to be a modern electronic engineer on this dedicated course. Electronics play a major part in all aspects of our lives, from the phone we hold in our hands to the cars we drive each day. Read more
Discover and develop the contemporary knowledge ad skills required to be a modern electronic engineer on this dedicated course. Electronics play a major part in all aspects of our lives, from the phone we hold in our hands to the cars we drive each day. With countless applications,electronic engineers design and build components of all shapes and sizes for both industrial and home applications.

To prepare students for these roles, the course covers design, modelling and test algorithms for complex electronic assemblies,circuit design for low and high frequencies,as well as sustainability, compliance with Restriction of Hazardous Substances directives ad obsolescence solutions are also considered.

Software development is an important part of a modern electronic engineer's role, so to support this you'll use software tools such as VEE, MULTISIM and MATLAB during the course.

Key Course Features

-Specialism's within this programme feature modern power electronics and drive systems combined with their controlling mechanisms and modelling using MATLAB and state space models.
-The MSc in Electronic Engineering is accredited by Institute of Engineering and Technology (IET) and Energy Institute (EI), and provides you the required training for registering for Chartered Engineer status.

What Will You Study?

FULL-TIME MODE (SEPTEMBER INTAKE)
The taught element, Part One, of the programmes will be delivered in two 12 week trimesters and each trimester has a loading of 60 credits.

The six taught modules will have lectures and tutorials/practical work on a weekly basis. The expected timetable per module will be a total of 200 hours, which includes 40 hours of scheduled learning and teaching hours and 160 independent study hours.

Part Two will then take a further 15 weeks having a notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

FULL-TIME MODE (JANUARY INTAKE)
For the January intake, students will study three specialist modules first during the second trimester from January to May.

Other three common modules the students will study in the first trimester of the next academic year from September to January.

On successful completion of the taught element of the programme the students will be progressed to the Part Two, MSc dissertation to be submitted in April/May.

PART-TIME MODE
The taught element, part one, of the programmes will be delivered in two academic teaching years. 80 credits or equivalent worth of modules will be delivered in the first year and 40 credits or equivalent in the second year.

The part time students would join the full time delivery with lectures and tutorials/practical work during one day on a weekly basis. The dissertation element (i.e. Part Two) will start in trimester 2 taking a further 30 weeks having a total notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

AREAS OF STUDY INCLUDE
-Engineering Research Methods
-Sustainable Design & Innovation
-Engineering Systems Modelling & Simulation
-Control Systems Engineering
-Design for Electronics Manufacture & Testing
-Electronic Circuit Design
-Dissertation

The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Assessment and Teaching

You will be assessed throughout your course by a variety of methods including practical work, portfolios, presentations and, for certain subjects, examinations.

Career Prospects

The Careers & Zone at Wrexham Glyndŵr University is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

Read less
Wrexham Glyndwr University Engineering
Distance from Wrexham: 0 miles
Discover and develop the contemporary manufacturing techniques required to remain at the forefront of this vital and enduring sector. Read more
Discover and develop the contemporary manufacturing techniques required to remain at the forefront of this vital and enduring sector.

The course aims to provide a solid background for a career in the engineering and manufacturing sector.You'll work with academic staff with industrial experience spanning a broad range of engineering areas and working levels. Taught elements include design, stress and fluid dynamics analysis, as well as using state of the art commercial software CATIA V5, ABAQUS and ANSYS.

Students can choose to develop their skills in particular aspects through their choice of MSc research project, which would be aligned with one of the University Research Centre for Applied Science, Engineering and Computing’s specialist research groups.

Key Course Features

-The programme is accredited by the Engineering Council and many students from previous years are now in jobs at top international companies such as Rolls-Royce, Siemens, Alstom, and Airbus.
-The MSc in Mechanical Manufacturing is accredited by Institute of Engineering and Technology (IET) and the Institution of Mechanical Engineers (IMechE), and provides you with the required training for registering for Chartered Engineer status.

What Will You Study?

FULL-TIME MODE (SEPTEMER INTAKE)
The taught element, Part One, of the programmes will be delivered in two 12 week trimesters and each trimester has a loading of 60 credits.

The six taught modules will have lectures and tutorials/practical work on a weekly basis. The expected timetable per module will be a total of 200 hours, which includes 40 hours of scheduled learning and teaching hours and 160 independent study hours.

Part Two will then take a further 15 weeks having a notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

FULL-TIME MODE (JANUARY INTAKE)
For the January intake, students will study three specialist modules first during the second trimester from January to May. Other three common modules the students will study in the first trimester of the next academic year from September to January.

On successful completion of the taught element of the programme the students will be progressed to the Part Two, MSc dissertation to be submitted in April/May.

PART-TIME MODE
The taught element, part one, of the programmes will be delivered in two academic teaching years. 80 credits or equivalent worth of modules will be delivered in the first year and 40 credits or equivalent in the second year.

The part time students would join the full time delivery with lectures and tutorials/practical work during one day on a weekly basis. The dissertation element (i.e. Part Two) will start in trimester 2 taking a further 30 weeks having a total notional study time of 600 hours.

During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

AREAS OF STUDY INCLUDE
-Engineering Research Methods
-Sustainable Design & Innovation
-Engineering Systems Modelling & Simulation
-Advanced Composite Materials
-Advanced Manufacturing Technology
-Advanced Production & Assembly
-Dissertation

The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Assessment and Teaching

You will be assessed throughout your course through a variety of methods including portfolios, presentations and, for certain subjects, examinations.

Career Prospects

The courses will give you the chance to advance your career to management levels. You might also consider consultancy, research and development, testing and design positions within the aeronautical industry. Airbus is a classic example of an employer excelling in this field in the north Wales region.

The Careers & Zone at Wrexham Glyndŵr University is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

Read less
Wrexham Glyndwr University Engineering
Distance from Wrexham: 0 miles
Engineers with expertise in multiple areas can combine and develop their experience to the next level through the modern discipline of mechatronics. Read more
Engineers with expertise in multiple areas can combine and develop their experience to the next level through the modern discipline of mechatronics.

Mechatronics is a multidisciplinary field that melds systems, mechanical, electrical, telecommunications, control and computer engineering through a design process that unifies these unique subfields.

To develop mechatronics skills, the programme covers design and modelling of electromechanical systems such as positioning of robotic arms, pick and place technology using vision, recognition and feedback sensing.

You will also discover real-time control system modelling and embedded systems design, development and implementation. Programming includes both high and low level languages such as Python, C or C++, and VHDL for FPGA applications.

Key Course Features

There is increasing industry demand for graduates who can work in this interdisciplinary engineering environment. International companies such as Siemens, Volkswagen, and Micron Semiconductors etc all recruit graduates with a Mechatronics profile.The MSc in Mechatronics is accredited by Institute of Engineering and Technology (IET), and provides you with the required training for registering for Chartered Engineer status.

What Will You Study?

FULL-TIME MODE (SEPTEMER INTAKE)
The taught element, Part One, of the programmes will be delivered in two 12 week trimesters and each trimester has a loading of 60 credits.The six taught modules will have lectures and tutorials/practical work on a weekly basis. The expected timetable per module will be a total of 200 hours, which includes 40 hours of scheduled learning and teaching hours and 160 independent study hours.

Part Two will then take a further 15 weeks having a notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

FULL-TIME MODE (JANUARY INTAKE)
For the January intake, students will study three specialist modules first during the second trimester from January to May. Other three common modules the students will study in the first trimester of the next academic year from September to January.

On successful completion of the taught element of the programme the students will be progressed to the Part Two, MSc dissertation to be submitted in April/May.

PART-TIME MODE
The taught element, part one, of the programmes will be delivered in two academic teaching years. 80 credits or equivalent worth of modules will be delivered in the first year and 40 credits or equivalent in the second year.

The part time students would join the full time delivery with lectures and tutorials/practical work during one day on a weekly basis. The dissertation element (i.e. Part Two) will start in trimester 2 taking a further 30 weeks having a total notional study time of 600 hours.

During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

AREAS OF STUDY INCLUDE
-Engineering Research Methods
-Sustainable Design & Innovation
-Engineering Systems Modelling & Simulation
-Control Systems Engineering
-Mechatronic System Design
-Microprocessor System Integration
-Dissertation

The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Assessment and Teaching

You will be assessed throughout your course through a variety of methods including portfolios, presentations and, for certain subjects, examinations.

Career Prospects

The Careers & Zone at Wrexham Glyndŵr University is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

Read less
Wrexham Glyndwr University Engineering
Distance from Wrexham: 0 miles
The aircraft industry is estimated to be valued at £24bn per year to the UK economy (HM Government) with demand for passenger and freight aircraft expected to increase over the next 20 years. Read more
The aircraft industry is estimated to be valued at £24bn per year to the UK economy (HM Government) with demand for passenger and freight aircraft expected to increase over the next 20 years.

To support that demand, designers and engineers need to be equipped with the skills and knowledge to help meet it now and into the future. Our course will give you an understanding of the underlying technology of their systems, power sources and requirements, plus interfaces.

You will use state-of-the-art commercial software: CATIA V5, ABAQUS and ANSYS.

Key Course Features

-At Wrexham Glyndŵr University we are on the door step of one of the largest aircraft manufacturers in the world, Airbus, with a large number of first and second tier suppliers in the locality. Many of the academic staff have industrial experience spanning a broad range of engineering areas and working levels.
-The programmes are accredited by the Engineering Council and many students from previous years are now in jobs at top international companies such as Rolls-Royce, Raytheon, Magellan and Airbus. Aside from major manufacturers, North Wales and North West England have numerous maintenance companies, keeping the UK flying safely and efficiently. With the average life of an aircraft expected to be over 30 years, maintenance and overhaul engineers will continue to be in high demand in the future.
-The MSc in Aircraft Design is accredited by Royal Aeronautical Society (RAeS), Institute of Engineering and Technology (IET) and the Institution of Mechanical Engineers (IMechE), and provides you with the required training for registering for Chartered Engineer status.

What Will You Study?

FULL-TIME STUDY (SEPTEMBER INTAKE)
The taught element, Part One, of the programmes will be delivered in two 12 week trimesters and each trimester has a loading of 60 credits.

You will cover six taught modules which include lectures, tutorials and practical work on a weekly basis. The expected timetable per module will be a total of 200 hours, which includes 40 hours of scheduled learning and teaching hours and 160 independent study hours.

Part Two will then take a further 15 weeks having a notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

FULL-TIME MODE (JANUARY INTAKE)
For the January intake, students will study the three specialist modules first during the second trimester from January to May. The three core modules will be studied in the first trimester of the next academic year from September to January.

On successful completion of the taught element of the programme the students will progress to Part Two, MSc dissertation to be submitted in April/May.

PART-TIME MODE
The taught element, part one, of the programmes will be delivered over two academic teaching years. 80 credits or equivalent worth of modules will be delivered in the first year and 40 credits or equivalent in the second year. The part time students would join the full time delivery with lectures and tutorials/practical work during one day on a weekly basis.

The dissertation element will start in trimester 2 taking a further 30 weeks having a total notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

AREAS OF STUDY INCLUDE
-Engineering Research Methods
-Sustainable Design & Innovation
-Engineering Systems Modelling & Simulation
-Advanced Composite Materials
-Aircraft Structures
-Airframe Systems Design
-Dissertation

The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Assessment and Teaching

You will be assessed throughout your course through a variety of methods including portfolios, presentations and, for certain subjects, examinations.

Career Prospects

The courses will give you the chance to advance your career to management levels. You might also consider consultancy, research and development, testing and design positions within the aeronautical industry. Airbus is a classic example of an employer excelling in this field in the north Wales region.

The Careers & Zone at Wrexham Glyndŵr University is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

Read less
Wrexham Glyndwr University Engineering
Distance from Wrexham: 0 miles
Discover the techniques and standards required to design components to ensure airworthiness on this dedicated course. The demands on aircraft components are extremely robust, as they must adhere to the extreme loads and stresses the vehicle is exposed to, as well as rigorous safety standards. Read more
Discover the techniques and standards required to design components to ensure airworthiness on this dedicated course.

The demands on aircraft components are extremely robust, as they must adhere to the extreme loads and stresses the vehicle is exposed to, as well as rigorous safety standards. This course will give you the opportunity to learn the required skills and techniques to design aircraft components, as well as understand the theory behind them.

Taught elements of the course include advanced materials, design and stress testing, and fluid dynamics analysis. You will have the opportunity to use state-of-the-art commercial software such as CATIA V5, ABAQUS and ANSYS.

Key Course Features

-At Wrexham Glyndŵr University we are on the door step of one of the largest aircraft manufacturers in the world, Airbus, with a large number of first and second tier suppliers in the locality. Many of the academic staff have industrial experience spanning a broad range of engineering areas and working levels.
-The course is accredited by the Engineering Council and many students from previous years are now in jobs at top international companies such as Rolls-Royce, Raytheon, Magellan and Airbus. Aside from major manufacturers, North Wales and North West England have numerous maintenance companies, keeping the UK flying safely and efficiently. With the average life of an aircraft expected to be over 30 years, maintenance and overhaul engineers will continue to be in high demand in the future.
-The MSc in Aircraft Design is accredited by Royal Aeronautical Society (RAeS), Institute of Engineering and Technology (IET) and the Institution of Mechanical Engineers (IMechE), and provides candidates the required training for registering for Chartered Engineer status.

What Will You Study?

FULL-TIME STUDY (SEPTEMBER INTAKE)
The taught element, Part One, of the programmes will be delivered in two 12 week trimesters and each trimester has a loading of 60 credits.

You will cover six taught modules which include lectures, tutorials and practical work on a weekly basis. The expected timetable per module will be a total of 200 hours, which includes 40 hours of scheduled learning and teaching hours and 160 independent study hours.

Part Two will then take a further 15 weeks having a notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

FULL-TIME MODE (JANUARY INTAKE)
For the January intake, students will study the three specialist modules first during the second trimester from January to May. The three core modules will be studied in the first trimester of the next academic year from September to January.

On successful completion of the taught element of the programme the students will progress to Part Two, MSc dissertation to be submitted in April/May.

PART-TIME MODE
The taught element, part one, of the programmes will be delivered over two academic teaching years. 80 credits or equivalent worth of modules will be delivered in the first year and 40 credits or equivalent in the second year. The part time students would join the full time delivery with lectures and tutorials/practical work during one day on a weekly basis.

The dissertation element will start in trimester 2 taking a further 30 weeks having a total notional study time of 600 hours. During this time the student will be responsible for managing his/her time in consultation with an academic supervisor.

AREAS OF STUDY INCLUDE
-Engineering Research Methods
-Sustainable Design & Innovation
-Engineering Systems Modelling & Simulation
-Advanced Composite Materials
-Aircraft Structures
-Advanced Manufacturing Technology
-Dissertation

The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Assessment and Teaching

You will be assessed throughout your course through a variety of methods including portfolios, presentations and, for certain subjects, examinations.

Career Prospects

The courses will give you the chance to advance your career to management levels. You might also consider consultancy, research and development, testing and design positions within the aeronautical industry. Airbus is a classic example of an employer excelling in this field in the north Wales region.

The Careers & Zone at Wrexham Glyndŵr University is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

Read less
Wrexham Glyndwr University Engineering
Distance from Wrexham: 0 miles
Join a hands-on, state-of-the-art course that focuses on the practical side of robotics ad the effects that robots have on society. Read more
Join a hands-on, state-of-the-art course that focuses on the practical side of robotics ad the effects that robots have on society.

Intended as both an academic and industry facing course, the subject is aimed at graduates from a computing, engineering or science discipline who want to develop their understanding of the practical and theoretical aspects of robotic systems. This is an area with a wide-range of applications in industry and research.

This MSc focuses on the computational side of Robotics with an emphasis on the software engineering aspects. In addition it provides the ability to investigate the field of Artificial Intelligence applicable to this sector and a substantial portion of the programme concentrates on the effect that robots have on society. It is the intention of this programme to produce specialists with up to date knowledge and skills that are capable of being used in an industrial, commercial and research environment.

Although the necessary background is introduced as appropriate, the course deals with problem-solving and the provisioning of real time aspects of computer based solutions and applications using current and emerging technologies. In addition to developing an understanding of underlying principles, students are engaged in the practical application of design, implementation, trouble-shooting and management for real-world problems.

Key Course Features

The programme aims to provide the students with the following:
-Hands-on experience of state of the art equipment.
-Specialist, advanced technical skills in the area of Robotics.
-An advanced understanding and competence in the hardware and software used for the development and use of Robotics.
-The ability to critically appraise and disseminate research results.
-A sound basis for further research and / or professional development.

What Will You Study?

The MSc Robotics is offered in full-time and part-time mode. As with most masters programmes the MSc Robotics has 2 parts, a taught part followed by a dissertation. Students study 6 core modules worth 20 credits each followed by a 60 credit dissertation making a total of 180 credits.

MODULES
-Research Methods
-Future & Emerging Technology
-Advanced Artificial Intelligence
-Computational Robotics
-Robotic Applications in Society
-Robotic Software Engineering
-Dissertation

The information listed in this section is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal academic framework review, so may be subject to change.

Career Prospects

Modules studied on the programme have been designed to provide the skills to meet industrial and commercial needs as well as those of traditional academic standing. In addition to the academic and theoretical aspects the emphasis will be on the practical side of robotics to enable graduates to practise as a professional in industry or continue with further study towards a research degree.

The Careers & Zone at Wrexham Glyndŵr University is there to help you make decisions and plan the next steps towards a bright future. From finding work or further study to working out your interests, skills and aspirations, they can provide you with the expert information, advice and guidance you need.

Read less

  • 1
Show 10 15 30 per page



Cookie Policy    X