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Masters Degrees (Rock Art)

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Explore what it means to be human. If you’re interested in what it means to be human, where we came from and how humans developed and adapted, the MA/MSc in Early Prehistory is for you. Read more
Explore what it means to be human

Why choose this course?

If you’re interested in what it means to be human, where we came from and how humans developed and adapted, the MA/MSc in Early Prehistory is for you. You will work alongside the UK’s foremost academics in early prehistory to delve into the origins of humanity and explore the evolution of cultures, customs, religions, art and technology. The flexible nature of the course enables you to pursue your own particular interests.

The archaeology of human origins is a fascinating and dynamic area of research, with new evidence and theories constantly changing our interpretation of who we are. The work of staff and researchers on this course regularly gains media attention, with recent studies of Neanderthal children and the origins of compassion attracting widespread coverage.
-Explore the archaeology and approaches to human origins
-Work alongside internationally renowned specialists in early prehistoric archaeology and human evolution
-Work on pioneering studies with the potential for significant media exposure
-Gain ‘hands on’ experience of museum collections at the York Museum
-Visit Upper Palaeolithic rock art on a field trip to Creswell Crags
-Choose modules to support your own research interests
-Use the latest techniques and equipment to build key practical skills
-Receive advice on developing your career and research interests from knowledgeable staff

What does the course cover?
The course addresses fascinating questions such as: what makes us ‘human’? How did early human societies work? How different were Neanderthals from ourselves and why did they die out? What was life like in the Ice Age? We debate these questions and many others within a lively research environment as you build up your knowledge and experience of early prehistoric societies from three million to 5,000 years ago.

Who is it for?
This course is designed for anyone with an interest in human origins, human evolution and what defines us as a species. Most students taking the course have a degree in archaeology or a related subject. However, people with relevant experience or a passionate interest in the subject may also be admitted to the course.

What can it lead to?
This course does not lead directly to a specific vocation, but offers a broad range of essential skills and expertise, specialist knowledge and insight, which are relevant to a wide variety of careers or further study. Many of our students go on to pursue research at PhD level while others have taken up careers in heritage, conservation, the archaeology sector and academia.

Careers

By the end of your MA/MSc in Early Prehistory you will:
-Have developed an awareness of the scope of Early Prehistory and knowledge of key early prehistoric societies
-Be able to identify key transitions in human evolution
-Be aware of the issues of interpreting archaeological evidence for early prehistoric societies
-Have developed a critical understanding of the key debates in the period
-Have developed your ability to gather and organise information and arguments in a critical and independent manner through writing essays and producing projects
-Have undertaken a piece of independent research on a topic within early prehistory
-Have developed your presentational skills through the delivery of seminar papers on a range of diverse themes

The skills, knowledge and insights gained on the course can provide a launchpad for a wide range of archaeological and heritage careers, as well as further study and research.

Course postgraduates have gone on to take up research degrees, academic posts and careers with prominent heritage, conservation and archaeological organisations.

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Explore human-environment interaction through the ages. This course offers a unique perspective on landscape archaeology, focusing on human ecology and the interactions of people with their environments. Read more
Explore human-environment interaction through the ages.

Why choose this course?

This course offers a unique perspective on landscape archaeology, focusing on human ecology and the interactions of people with their environments. It takes you beyond isolated archaeological sites, buildings or artefacts to explore their context in the wider landscape. You will investigate the varying lifeways of humans through the ages, and how people have interacted with the natural world since early prehistory.
-Study landscape archaeology from the perspective of human ecology – from early prehistory to the 19th century
-Explore topical issues ranging from human-environment interaction to rock art in the landscape
-Access the region’s rich natural resources for landscape study in the Yorkshire Moors, Dales and Wolds
-Learn from world-leading researchers in landscape archaeology
-Use the latest techniques to build key practical skills in surveying, GIS, geoarchaeology and aerial photography
-Receive careers and research advice from knowledgeable and experienced staff

What does the course cover?
The course explores the links between landscape theory and practice, and provides a broad foundation in the recognition, recording, interpretation and conservation of archaeological landscapes. The course comprises modules that assess the development of landscape archaeology and the range of approaches and methods employed in this increasingly important field of study. You will examine case studies from many different periods and areas around the world to understand different approaches to the study of landscape change.

Who is it for?
The MA in Prehistoric Landscape Archaeology is designed for students with an interest in how people have engaged with landscapes and the environment during the prehistoric and protohistoric periods. Students with a background in archaeology, physical geography, environmental science or history are particularly suited to this course.

What can it lead to?
This MA opens the door to a variety of archaeological and landscape heritage careers, as well as further research or PhD study.

Careers

Open the door to varied archaeological careers and research. The MA in Prehistoric Landscape Archaeology enables you to:
-Demonstrate a knowledge and understanding of research methods appropriate to Landscape Archaeology
-Understand and critically assess the sources of information pertinent to the study of Landscape Archaeology
-Understand the fundamental concepts, techniques and current debates relevant to Landscape Archaeology
-Gather and organise information and arguments in a critical and independent manner through writing essays under various conditions
-Undertake independent research on a topic within the field of Landscape Archaeology
-Develop presentation skills through the delivery of seminar papers on a range of diverse themes

The skills and knowledge gained on the course are applicable to wide range of archaeological and landscape conservation careers, as well as further study, research and academic careers.

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This flexible MSc programme is suitable for individuals who already have an accredited undergraduate civil engineering degree and who are seeking to further their engineering skills and achieve chartered status. Read more
This flexible MSc programme is suitable for individuals who already have an accredited undergraduate civil engineering degree and who are seeking to further their engineering skills and achieve chartered status.

The course is accredited by the Joint Board of Moderators as meeting the requirements for further learning for a chartered engineer (CEng) for candidates who already have an accredited CEng (partial) BEng(Hons) or an accredited IEng (full) BEng/BSc(Hons) undergraduate first degree.

You will study a range of advanced civil engineering subjects linked to cutting-edge research. These include earthquake engineering dynamics and design, advanced geotechnics and rock mechanics, bridge engineering and advanced hydraulics. You will also develop the skills demanded in civil engineering consultancy offices around the world.

On the course, you will have the opportunity to use state-of-the-art laboratories and advanced technical software for numerical modelling.

The course is flexible and allows you to combine advanced civil engineering with related subjects including water environmental management, construction management and sustainable construction.

All of the taught modules are delivered by research-active staff and pave the way for a career at the forefront of ambitious civil engineering projects.

Scholarships

Scholarships are available for this course. Please click the link below for more information.
https://www.brighton.ac.uk/studying-here/fees-and-finance/postgraduate/index.aspx

Course structure

Our courses are under continual review. If you have already applied you can find more information on the applicant portal.

The course has an emphasis on practical applications of advanced civil engineering concepts. You will make use of our advanced laboratories, modern computer facilities and technical software.

The MSc requires successful completion of six modules together with a dissertation on an agreed technical subject; a dissertation is not required, however, for the PGDip.

The taught component of the course comprises six core modules, and you can either take all six of these modules or choose four with an additional two approved modules from other MSc courses in the School of Environment and Technology. You can use this flexibility to study related subjects including water and waste-water treatment technology, construction management and sustainable construction.

Core modules cover geotechnical earthquake engineering, dynamics of structures with earthquake engineering applications, seismic design of reinforced concrete members, random vibrations of structures, bridge loads and analysis, rock mechanics, hydrogeology, coastal engineering and wave loading.

Areas of study

• Coastal Engineering and Wave Loading

This module provides a basic understanding of different wave theories and their applications in coastal engineering practice.

You will develop an understanding of the coastal sediment transport processes and the means to deal with issues associated with coastal protection and sea defence.

• Geotechnical Earthquake Engineering

This module provides an understanding of advanced geotechnical design methods with an emphasis on seismic design. It focuses on current design methods for soil and rock structures and foundation systems subject to complex loading conditions.

You will gain experience in using a variety of commercial software.

• Rock Mechanics

The module gives you an understanding of the behaviour of rocks and rock mass and enables you to evaluate the instability of rock slopes and tunnels in order to design reinforcements for unstable rock.

• Dynamics of Structures with Earthquake Engineering Applications

You will be introduced to the fundamental concepts of dynamics of structures. The module then focuses on analytical and numerical methods used to model the response of civil engineering structures subjected to dynamic actions, including harmonic loading, blast and impact loading, and earthquake ground motion.

• Random Vibration of Structures

The module gives you the confidence to model uncertainties involved in the design of structural systems alongside a framework to critically appraise probabilistic-based Eurocode approaches to design.

Stochastic models of earthquake ground motion, wind and wave loading are explored. Probabilistic analysis and design of structures is undertaken through pertinent random vibration theory.

You will become confident with the probabilistic analysis for the design against earthquake, wind and wave loadings through various checkable calculations.

• Repair and Strengthening of Existing Reinforced Concrete Structures

The module gives you an understanding of the types and causes of damage to reinforced concrete structures. It then focuses on current techniques for repair and strengthening of existing structures.

Employability

The course is particularly appropriate for work in structural, geotechnical and coastal engineering.

Graduates have gone on into roles as structural engineers and civil engineers in a number of structural design offices around the world.

Others have been motivated by the research component of the course and followed a PhD programme after graduation.

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This course offers a cross-disciplinary approach to the study of environmental management, policy and sustainable development. You’ll gain knowledge of major environmental issues and understand the methods in which environmental considerations and climate change are used in development and planning decisions. Read more

Why this course?

This course offers a cross-disciplinary approach to the study of environmental management, policy and sustainable development.

You’ll gain knowledge of major environmental issues and understand the methods in which environmental considerations and climate change are used in development and planning decisions.

There’s a strong demand for graduates with environmental management and policy-making skills. We’ve seen our graduates capitalise upon a wide range of employment within the private, public and voluntary sectors.

See the website https://www.strath.ac.uk/courses/postgraduatetaught/sustainabilityenvironmentalstudies/

Work Placement

As part of the class Independent Study in Collaboration with Industry you can apply to work with industry projects. One of the projects is the Carbon Clinic. This is an innovative collaborative project between the Carbon Trust and the University. It aims to provide support to small and medium sized enterprises (SMEs) to reduce their carbon footprint and give you practical experience on environmental responsibilities within a business.

Facilities

In our Department of Civil & Environmental Engineering we have invested £6 million in state-of-the-art laboratories which cover core areas of activity including geomechanics, microbiology, analytical chemistry and structural design.

- Field investigation
We are equipped with:
- nanoseismic systems for monitoring the mechanical evolution of soil and rock masses
- electrical resistivity tomography systems to detect clay fissuring and ground water flow in earth-structures
- dielectric permittivity-based sensors to monitor water flow in the sub-surface environment

- Geomechanics Laboratory
We are equipped with state-of-the art technologies for testing multiphase (unsaturated) porous geomaterials. These include:
- suction-controlled double-wall triaxial cells
- pressure plates
- triaxial cells equipped with bender elements for dynamic testing
- image analysis unit to monitor soil specimen deformation
- instruments for measurement of pore-water tensile stress
- Mercury Intrusion Porosimeter and SEM for microstructure investigation

- Software & numerical modelling
You’ll have access to a wide range of software packages relevant to civil and geotechnical engineering applications, including:
- GEOSTUDIO suite (Slope, Seep, Sigma, Quake, Temp, CTran, Air and Vadose)
- ABAQUS finite element packages
- Ansys
- Autodesk Civil 3D
- Limit State
- Strand 7
- Talren 4

Accreditation

This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired a partial CEng accredited undergraduate first degree.

Open Access

Home students can also choose to study through Open Access. This is initially a non-graduating route. You register for one module at a time and have the option to build up credits eventually leading to a Postgraduate Certificate, Postgraduate Diploma or MSc. You can take up to five years to achieve the qualification.

This option is popular with students in employment, who may wish to undertake modules for Continuing Professional Development purposes.

Home students who do not meet the normal MSc entry requirements for this programme are welcome to apply through the Open Access route instead.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

The MSc involves a curriculum of three core classes and a very wide range of optional classes. Each module is taught two to three hours per week over 8 to 12 weeks.

In addition, you'll also undertake a dissertation. Progress to the dissertation is dependent on performance in the instructional modules.

Careers

There’s a strong demand for graduates with environmental management and policymaking skills. As a graduate you may find yourself in a range of positions in:
- Private consultancies
- Government agencies
- Local authorities
- Environmental regulators, businesses and agencies

- Where are they now?
84% of our graduates are in work or further study.*

*Based on the results of the national Destinations of Leavers from Higher Education Survey (2010/11 and 2011/12).

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

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Why this course?. Civil engineering develops and improves facilities and services that society needs – from the supply of clean water and energy to the design and construction of roads, railways and stations. Read more

Why this course?

Civil engineering develops and improves facilities and services that society needs – from the supply of clean water and energy to the design and construction of roads, railways and stations. Solving problems of air, land and water pollution and protecting society against natural disasters are also important aspects of civil engineering.

Engineering graduates are in high demand from recruiting companies worldwide.

This 18-month MSc course has been designed to meet the needs of a broad range of engineering industries. As a Masters student, you’ll gain the specialist and generic skills necessary to lead future developments, with practical experience provided by the industrial placement.

The course has a significant design element based on the most up-to-date specialist design guidelines. This includes a major design project that integrates acquired knowledge and acts as a platform for structured self-learning.

This MSc in Civil Engineering with Industrial Placement is suitable for graduates with a background in any discipline of civil engineering. Applicants with a degree in environmental engineering, earth science, mathematics, physics and mechanical engineering may also be considered.

The MSc in Civil Engineering with Industrial Placement has three optional specialist streams:

- Structural Engineering & Project Management

- Geotechnical Engineering & Project Management

- Geoenvironmental Engineering & Project Management

- Civil Engineering with Water Engineering & Project Management

See the website https://www.strath.ac.uk/courses/postgraduatetaught/civilengineeringwithindustrialplacement/

Industrial placement

A wide range of companies, such as AECOM, ATKINS, CAPITA, CH2M HILL and ClimateXChange (Scotland’s Centre of Expertise on Climate Change), are offering placements exclusively for this MSc. A full list of companies can be provided upon request. The 8 to 12 weeks industrial placement will take place in the period from June to September.

You’ll study

You'll take the compulsory module Civil Engineering Design Projects. This module gives you the opportunity to work on real projects. You can choose between a renewable energy project or an industrial project. You’ll develop comprehensive and innovative designs that involve structural engineering, geotechnical engineering and water engineering, management, environmental and financial planning.

In additional to the industrial placement you'll also take the compulsory module Research Protocols for Science & Engineering which supports the dissertation project. You also have a wide choice of optional modules.

Following successful completion of the taught component, you’ll undertake a dissertation. If you’re on one of the specialist streams you’ll undertake a research project on a topic related to that stream. The dissertation can be linked to the industrial placement and worked on together with the industrial partner.

Facilities

In the Department of Civil & Environmental Engineering we’ve invested £6million in state-of-the-art laboratories which cover core areas of activity including:

- geomechanics

- microbiology

- analytical chemistry

- structural design

- Field investigation

We’re equipped with:

- nanoseismic systems for monitoring the mechanical evolution of soil and rock masses

- Electrical Resistivity Tomography systems to detect clay fissuring and ground water flow in earth-structures

- dielectric permittivity-based sensors to monitor water flow in the sub-surface environment

- Geomechanics Laboratory

We’re equipped with state-of-the art technologies for testing multiphase (unsaturated) porous geomaterials. These include:

- suction-controlled double-wall triaxial cells

pressure plates

- triaxial cells equipped with bender elements for dynamic testing

- image analysis unit to monitor soil specimen deformation

- instruments for measurement of pore-water tensile stress

- Mercury Intrusion Porosimeter and SEM for microstructure investigation

- Software and numerical modelling

You’ll have access to a wide range of software packages relevant to civil and geotechnical engineering applications, including:

- GEOSTUDIO suite (Slope, Seep, Sigma, Quake, Temp, CTran, Air and Vadose)

- ABAQUS finite element packages

- Ansys

- Autodesk Civil 3D

- Limit State

- Strand 7

- Talren 4

Accreditation

This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired a partial CEng accredited undergraduate first degree.

Additional requirements

For candidates whose first language is not English, minimum standards of English proficiency are an IELTS score of 6.5. Applicants with slightly lower scores have the opportunity to attend the University's Pre-Sessional English classes to bring them up to the required level. Some exceptions to the above may apply to nationals of UKBA-approved Majority English Speaking countries.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at the University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

Some classes involve fieldtrips and/or lab work. For fieldtrips, you need to wear warm clothing, waterproof jacket/trousers and sturdy shoes/boots (e.g. hiking boots or non-slip wellington boots).

For lab work, you’ll need a lab coat. At the start of your course you’ll attend a two-day induction welcoming you to the department

Careers

High-calibre civil engineers are in demand throughout the world. As a graduate you'll have many different career options including:

- engineering consultancies, where the work normally involves planning and designing projects

- contractors, where you’ll be managing and overseeing works on-site

- working for utilities or local authorities

- working for large companies such as those within oil production, mining and power generation

How much will I earn?

As a contracting civil engineer the average graduate starting salary is around £23,500. With five years' experience this could rise to £28,523*.

*Information is intended only as a guide.

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp



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Why this course?. Engineering graduates are in high demand from recruiting companies worldwide. This course has been designed to meet the needs of a broad range of engineering industries. Read more

Why this course?

Engineering graduates are in high demand from recruiting companies worldwide.

This course has been designed to meet the needs of a broad range of engineering industries. As a Masters student, you’ll gain the specialist and generic skills necessary to lead future developments.

This one-year MSc in civil engineering is suitable for graduates with a background in any discipline of civil engineering. Applicants with a degree in environmental engineering, earth science, maths, physics and mechanical engineering may also be considered.

You can graduate with an MSc in Civil Engineering or choose to follow a specialist named stream:

- Civil Engineering with Structural Engineering & Project Management

- Civil Engineering with Geotechnical Engineering & Project Management

- Civil Engineering with Geoenvironmental Engineering & Project Management

- Civil Engineering with Water Engineering & Project Management

See the website https://www.strath.ac.uk/courses/postgraduatetaught/civilengineering/

You’ll study

You'll take the compulsory module Civil Engineering Design Projects. This module gives you the opportunity to work on real projects. You can choose between a renewable energy project or an industrial project. You’ll develop comprehensive and innovative designs that involve structural engineering, geotechnical engineering and water engineering, management, environmental and financial planning.

You'll also take the compulsory module Research Protocols for Science & Engineering which supports the dissertation project. You also have a wide choice of optional modules.

Following successful completion of the taught component, you’ll undertake a dissertation. If you’re on one of the specialist streams you’ll undertake a research project on a topic related to that stream. The dissertation can be linked to the industrial placement and worked on together with the industrial partner.

Placements

As part of the class Independent Study in Collaboration with Industry, you can apply to work with industry projects.

Facilities

In the Department of Civil & Environmental Engineering we’ve invested £6million in state-of-the-art laboratories which cover core areas of activity including:

- geomechanics

- microbiology

- analytical chemistry

- structural design

- Field investigation

We’re equipped with:

- nanoseismic systems for monitoring the mechanical evolution of soil and rock masses

- Electrical Resistivity Tomography systems to detect clay fissuring and ground water flow in earth-structures

- dielectric permittivity-based sensors to monitor water flow in the sub-surface environment

- Geomechanics Laboratory

We’re equipped with state-of-the art technologies for testing multiphase (unsaturated) porous geomaterials. These include:

- suction-controlled double-wall triaxial cells

- pressure plates

- triaxial cells equipped with bender elements for dynamic testing

- image analysis unit to monitor soil specimen deformation

- instruments for measurement of pore-water tensile stress

- Mercury Intrusion Porosimeter and SEM for microstructure investigation

- Software & numerical modelling

You’ll have access to a wide range of software packages relevant to civil and geotechnical engineering applications, including:

- GEOSTUDIO suite (Slope, Seep, Sigma, Quake, Temp, CTran, Air and Vadose)

- ABAQUS finite element packages

- Ansys

- Autodesk Civil 3D

- Limit State

- Strand 7

- Talren 4

Accreditation

This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired a partial CEng accredited undergraduate first degree.

Open Access

Home students can also choose to study through Open Access. This is initially a non-graduating route. You register for one module at a time and have the option to build up credits eventually leading to a Postgraduate Certificate, Postgraduate Diploma or MSc. You can take up to five years to achieve the qualification.

This option is popular with students in employment, who may wish to undertake modules for Continuing Professional Development purposes.

Home students who do not meet the normal MSc entry requirements for this programme are welcome to apply through the Open Access route instead.

Additional requirements

For candidates whose first language is not English, minimum standards of English proficiency are an IELTS score of 6.5. Applicants with slightly lower scores have the opportunity to attend the University's Pre-Sessional English classes to bring them up to the required level. Some exceptions to the above may apply to nationals of UKBA-approved Majority English Speaking countries.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at the University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

The course has two semesters of taught classes. Some classes involve fieldtrips and/or lab work. For fieldtrips, you need to wear warm clothing, waterproof jacket/trousers and sturdy shoes/boots (e.g. hiking boots or non-slip wellington boots).

For lab work, you’ll need a lab coat. At the start of your course you’ll attend a two-day induction welcoming you to the department

Careers

High-calibre civil engineers are in demand throughout the world. As a graduate you'll have many different career options including:

- engineering consultancies, where the work normally involves planning and designing projects

- contractors, where you’ll be managing and overseeing works on-site

- working for utilities or local authorities

- working for large companies such as those within oil production, mining and power generation

How much will I earn?

As a contracting civil engineer the average graduate starting salary is around £23,500. With five years' experience this could rise to £28,523

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp



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Backed by an unparalleled reputation for expertise and innovation in mineral extraction, mineral processing and environmental protection, the graduate program in Mining Engineering has two types of students in mind. Read more

MASTERS OF APPLIED SCIENCE

Backed by an unparalleled reputation for expertise and innovation in mineral extraction, mineral processing and environmental protection, the graduate program in Mining Engineering has two types of students in mind:

Those from industry who wish to improve their workplace skills; and

Those who wish to pursue research leading to advances in state-of-the-art or state-of-the-practice mining and mineral process engineering.

In order to best meet the needs of these two groups, the program encourages interaction between universities in North America and other countries. In many cases, this collaborative outlook leads to joint research projects and student exchanges.

Program Overview

The graduate program in Mining Engineering offers opportunity for study in the fields of mining and mineral processing, including mine environment and coal preparation. Areas of research interest are indicated below.
1. Mining. Mine economics and valuation, mine design, drilling and blasting methods, rock mechanics and slope stability, optimization and simulation of mining operations, advanced mining methods, mine services (particularly mine ventilation), and climatic control.
2. Mineral processing. Unit operations, comminution, process modeling and optimization, expert systems, instrumentation and computer control. Flotation, surface chemistry, fines recovery, coal recovery, treatment of fine and oxidized coal, and precious metals recovery.
3. Mining and Environment. Acid rock drainage, environmental protection, effluent control and treatment. Social and legal aspects of sustainable mining practices, small-scale mining in developing countries.

Quick Facts

- Degree: Master of Applied Science
- Specialization: Mining Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Applied Science

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This is a vocational programme relevant to graduates with good Honours degrees in appropriate subjects (for example, Geosciences, Engineering, Physics, Mathematics, Chemistry, Biosciences, and Environmental Sciences). Read more
This is a vocational programme relevant to graduates with good Honours degrees in appropriate subjects (for example, Geosciences, Engineering, Physics, Mathematics, Chemistry, Biosciences, and Environmental Sciences). It is important to have a good knowledge of mathematics.
The lecture component of the programme encompasses the full range of hydrogeology. Modules cover drilling, well design, aquifer test analysis, laboratory test analysis, groundwater flow, hydrogeophysics, inorganic chemistry of groundwaters, organic contamination of groundwater, contaminated land and remediation, groundwater modelling, contaminant transport, hydrology, and groundwater resources assessment.

These lecture modules are supported by practical field sessions, and by computing and hydrogeological modelling based on industry standard software. Integration of concepts developed in the taught programmes is facilitated through student-centred investigations of current issues linked to a diverse range of hydrogeological environments.

Examinations are held in January and April. From May onwards, you undertake a project, a report on which is submitted in September.

Projects may be field-, laboratory-, or modelling- based, and are usually of an applied nature, although a few are research-orientated. Our chemical (inorganic and organic), rock testing, computing, geophysical and borehole-logging equipment is available for you to use during this period.

Career openings include those with consulting engineering and environmental firms, government scientific services and regional water companies, both in this country and abroad. Demand for hydrogeologists is substantial and students from the course are highly regarded by employers.

About the School of Geography, Earth and Environmental Sciences

The School of Geography, Earth and Environmental Sciences has a renowned history for international excellence in research and teaching.
Our postgraduate programmes are shaped by research that addresses global grand challenges across the fields of geography, planning, earth sciences, environmental science, occupational health and safety, and environmental and public health. With policy- and practice-focused teaching, all our programmes have high employability outcomes.
We offer excellent facilities for postgraduate study including extensive map and archive facilities, earth imaging laboratory, stable-isotope laboratory (SILLA), environmental library, fully digital drawing office, and state-of-the-art laboratories for environmental chemistry, sedimentology, ecology, groundwater and palaeobiology. Our diverse range of programmes will provide you with a thorough understanding of the discipline, high-quality training and skills development, and access to our expert staff and extensive facilities.
Our graduates go on to forge careers in areas that matter – from environmental consultancies and the hydrocarbon industries, to urban planning, policy roles in NGOs and government regulatory services – and make a real contribution to global challenges. Many graduates also go on to study for PhDs.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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The Secondary PGCE ‘Musicians in Education’ is a collaboration between Trinity Laban Conservatoire of Music and Dance and the University of Greenwich. Read more
The Secondary PGCE ‘Musicians in Education’ is a collaboration between Trinity Laban Conservatoire of Music and Dance and the University of Greenwich. It combines our expertise as one of the country’s leading conservatoires with a long tradition of teacher education at the University of Greenwich. The aim of the programme is simple: to prepare flexible and creative musicians who are confident working across a range of educational contexts. In addition to working in and qualifying for the formal school context, you will develop the skills to lead young people in making music in other settings too.

Visit the website: http://www.trinitylaban.ac.uk/study/music/pgce-musicians-in-education

Programme Content

Training is provided through collaboration between Trinity Laban (16 days) and the University of Greenwich (44 days), and is underpinned by significant placement learning opportunities within the schools sector (120 days, of which 10 are placements in alternative contexts with Trinity Laban's partners). These elements will enable you to develop the knowledge, understanding and skills required to teach in secondary schools, and you will be formally assessed against the national statutory requirements for Qualified Teacher Status.

In addition to practical teaching experience gained in two main schools, the partnership between Trinity Laban and the University enables you to gain training and teaching experience outside of classroom settings, for example in instrumental/vocal teaching for a Music Hub, school Musical Futures or community rock/pop projects, or leading orchestral outreach projects. As part of a collaborative team you will also design, coordinate and lead a two-day immersive creative composition project in a school.

In support of this work, you will be able to undertake instrumental/vocal lessons with Trinity Laban's outstanding teachers and will also be mentored by subject specialist teachers from whom you will receive daily feedback and guidance.

Progression Routes

By gaining Qualified Teacher Status you become a qualified teacher for both the maintained and independent sectors. The majority of our graduates become secondary music teachers. However, there are other opportunities, such as working for local authority music services in instrumental teaching or curriculum support. Some students use the skills they have developed to pursue a career as freelance workshop musicians.

PERFORMANCE AND PRACTICE FACILITIES

- 100-seat Peacock Room
- 100-seat Theatre Studio, with sprung dance floor
- Elegant Stuart & Mackerras Rooms for chamber music
- 80+ practice rooms
- Dedicated suites for Brass, Composition, Early Music, Harp Jazz and Percussion

THE FACULTY OF MUSIC

Located within the beautiful Wren-designed King Charles Court at the Old Royal Naval College, Trinity Laban richly deserves its international reputation as one of the premier institutions in the United Kingdom for the study of music.

The Faculty of Music is celebrated for its fine facilities, which include state-of-the-art practice rooms equipped with superb pianos, the outstanding Jerwood Library of the Performing Arts and the magnificent concert halls in nearby Blackheath.

We have long been acknowledged for fostering and promoting a caring and supportive environment in which our students can flourish and we are particularly proud of the high profile of our professorial staff, who work as acclaimed soloists or belong to top London orchestras and opera companies.

The beautiful site set alongside the River Thames and Greenwich Park, the highly distinguished and talented professorial staff and our innovative and comprehensive course provision make Trinity Laban's Faculty of Music the natural choice for all who seek the best in professional music performance training.

How to apply

Applications for the PGCE 'Musicians in Education' should be made to the University of Greenwich via the Graduate Teacher Training Registry (GTTR) website: https://www.ucas.com/ucas/teacher-training

All enquiries regarding the course should be directed to The University of Greenwich: http://www2.gre.ac.uk/
Tel. 0800 005 006

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Logic and Computation at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Logic and Computation at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

Logic is the basis for reasoning about what we can express and compute, having a profound influence in philosophy, linguistics, mathematics, computer science, and electronics. Since the invention of computers, logic has always been the primary source of ideas and techniques for the theoretical and practical development of programming.

Today, as the scope of programming technologies expands, and the horizon of applications widens, research in logic and its applications in software and hardware development is booming. In industry, formal methods are an integral part of system development, e.g., in automotive electronics, avionics, and chip design.

The MRes Logic and Computation course will teach you about advanced techniques in logic and their applications in research problems in computer science. You will receive an elite education of direct relevance to research and development problems in contemporary information and communication technology (ICT).

Key Features

Teaching score of Excellent.

Highest percentage of top-class researchers of any Computer Science department in Wales – and only 12 in the UK have higher.

70% of the research activity assessed as world-leading or internationally excellent.

Our industrial programme IT Wales which can arrange vacation employment placements.

A state-of-the-art education.

Friendly staff, committed to the highest standards.

A university with high success rate, low drop-out rate, and excellent student support.

Swansea's Library spends more per student on books and other resources than any other university in Wales, and most in the UK.

Course Content

Research Component

The main part of the MRes in Logic and Computation is a substantial and challenging project involving cutting edge research. The completion of such a project will give you the ability and confidence to pursue a successful career in industrial research and development, or to proceed to academic PhD studies.

Taught Component

In seminars and reading courses you will enter the world of research by studying general topics in theoretical computer science as well as special topics for your research project. Guided by your supervisor you will conquer new technical subjects and learn to critically assess current research.

Lecturers and students will meet regularly to discuss recent developments and give informal talks. Topics of the seminars are chosen in accordance with the research projects, and will cover material such as:

Theorem proving techniques

Formal program verification

Algebraic and coalgebraic specification

Modelling of distributed systems

Advanced methods in complexity theory

Additionally you will choose selected taught modules covering important topics such as Critical Systems, IT Security, Concepts of Programming

Languages, Artificial Intelligence Applications, Design Patterns and Generic Programming.

Facilities

The Department is well equipped for teaching, and is continually upgrading its laboratories to ensure equipment is up-to-date – equipment is never more than three years old, and rarely more than two. Currently, students use three fully networked laboratories: one, running Windows; another running Linux; and a project laboratory, containing specialised equipment. These laboratories support a wide range of software, including the programming languages Java, C# and the .net framework, C, C++, Haskell and Prolog among many; integrated programme development environments such as Visual Studio and Netbeans; the widely-used Microsoft Office package; web access tools; and many special purpose software tools including graphical rendering and image manipulation tools; expert system production tools; concurrent system modelling tools; World Wide Web authoring tools; and databases.

Careers

All Computer Science courses will provide you the transferable skills and knowledge to help you take advantage of the excellent employment and career development prospects in an ever growing and changing computing and ICT industry.

90% of Swansea’s Computer Science graduates are in full-time employment or further study within six months of graduating (HESA June 2011).

Some example job titles from the HESA survey 2011:

Software Engineer: Motorola Solutions

Change Coordinator: Logica

Software Developer/Engineer: NS Technology

Workflow Developer: Irwin Mitchell

IT Developer: Crimsan Consultants

Consultant: Crimsan Consultants

Programmer: Evil Twin Artworks

Web Developer & Web Support: VSI Thinking

Software Developer: Wireless Innovations

Associate Business Application Analyst: CDC Software

Software Developer: OpenBet Technologies

Technical Support Consultant: Alterian

Programming: Rock It

Software Developer: BMJ Group

Research

The results of the Research Excellence Framework (REF) 2014 show that Swansea Computer Science ranked 11th in the UK for percentage of world-leading research, and 1st in Wales for research excellence. 40% of our submitted research assessed as world-leading quality (4*).



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This programme will appeal if you’re looking to enter a career in the tunnelling and civil engineering industries. Our distinctive course format means that approximately 20% of teaching is delivered by guest lecturers from industry, ensuring that the content remains relevant. Read more
This programme will appeal if you’re looking to enter a career in the tunnelling and civil engineering industries.

Our distinctive course format means that approximately 20% of teaching is delivered by guest lecturers from industry, ensuring that the content remains relevant. Specialist subjects and case studies are also presented by experts with first-hand experience.

Modules include:
-Communication and Leadership
-Construction Management
-Finite Elements for Tunnelling
-Geological Investigation and Ground Characterisation
-Health, Safety and Environmental Considerations
-Rock Mechanics
-Tunnel Design
-Underground Construction Methods

You’ll learn from internationally recognised academics and industry experts on a course uniquely developed in partnership with the British Tunnelling Society. At what is fast becoming the UK’s centre of excellence for tunnelling, we’ll give you the state-of-the-art knowledge, understanding and skills to design and build the underground infrastructure of the future.

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Why Surrey?. Our MMus programme is distinctive in its range of musicological, compositional and performance-based elements. Read more

Why Surrey?

Our MMus programme is distinctive in its range of musicological, compositional and performance-based elements.

You will benefit from the diversity of our research strengths, numerous ensemble performance opportunities and expertise in a range of musical fields, including contemporary music for the concert hall, popular music, film music, opera, acoustic, electronic and computer-generated music.

Programme overview

The Musicology pathway of the MMus Music programme is designed to accommodate a flexible approach that reflects staff research expertise, students’ own specialisations and the increasingly polyglot nature of the discipline.

Art and popular music are both catered for within the pathway, drawing on the expertise of staff across these areas.

You will take two compulsory research training modules followed by a combination of compulsory specialism-related modules and optional modules. You may then choose to undertake a dissertation of either 60 or 90 credits.

The programme provides ideal preparation for future research work at PhD level.

Programme structure

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Short-course opportunities

The School welcomes applications from students who wish to undertake one module of study from the Masters programme.

Selection process

Potential applicants may make an appointment for an informal interview with the Programme Director if practicable. All applicants will be asked either to submit a sample of written work, a DVD of their performance, or samples of their compositional work, or to sit an audition depending on their chosen specialism.

Research

Our work achieves wide international circulation, both through established scholarly channels and, distinctively, through broadcast media (such as BBC TV, Channel 4, BBC Radio 3 and Radio 4, and National Public Radio in the USA). School staff are much in demand for pre-concert talks at venues such as London’s South Bank and Barbican centres.

The research environment at Surrey is sustained by open discussion and debate, and through the regular airing of work-in- progress. Our work is strengthened by the ready input of our peers and research students at various stages allowing collective engagement to foster innovation.

Educational aims of the programme

The MMus (Musicology) programme aims to provide students with a high quality education in the wide range of theoretical perspectives on and methodological approaches to present day musical study.

It aims to provide students with the necessary skills, techniques and methodologies to work at an advanced level with a critical awareness of the discipline.

The programme aims to reflect current developments within the theory and practice of musicology and, in so doing, to educate students so that they may work confidently and constructively within the musicological culture of the present. The programme aims to offer the necessary preparation for students wishing to undertake doctoral level study in practice-based areas.

Programme learning outcomes

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

Knowledge and understanding

  • Key questions in contemporary musicology
  • Disciplinary overlaps in musicology
  • The broad range of approaches to present day musicology

Intellectual / cognitive skills

  • Frame research questions
  • Critically assess, respond to and operate in current areas of musicology
  • Understand what constitutes musicological evidence
  • Undertake an advanced research project to an appropriate depth

Professional practical skills

  • Writing and delivering conference papers
  • Summarising musicological arguments and debates
  • Choosing appropriate methodologies
  • Accessing appropriate resources
  • Communicating understanding clearly in writing
  • Structuring a large scale piece of written work

Key / transferable skills

  • Communicate and present ideas effectively
  • Reasons critically
  • Organise and plan own work
  • Adopt a proactive approach to problem-solving
  • Make decisions in complex situations

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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Our MA in Culture Industry will allow you to explore the interface between contemporary economics and culture, from the scale of a start-up or artwork to that of governmental policy, a city, or the global marketplace. Read more

Our MA in Culture Industry will allow you to explore the interface between contemporary economics and culture, from the scale of a start-up or artwork to that of governmental policy, a city, or the global marketplace. It will also provide the approaches in critical and theoretical analysis that will enable you to conduct further academic research in areas ranging from art history to urban studies and critical theory.

Taking full advantage of the UK’s leading role in the creative industries, and London’s status as a world city, this course creates opportunities for you to:

  • make projects
  • go on field trips
  • do placements
  • carry out academic learning and research
  • meet leading creative practitioners and theorists

This will give you first-hand experience of the fast moving creative economy, as well as giving you indispensable skills in understanding that economy from a cultural, philosophical and political standpoint.

Engage with the cultural sector

Within the accelerated climate of digital networks and globalisation, the forms and behaviour of culture are mutating, converting the workshop into the handheld device and the cinema and gallery into the bedroom. This course is aimed at creative practitioners, entrepreneurs and theorists wanting to experiment with these changes, and set them into a historically and discursively rich framework.

Through participant observation, critical theory, and playful experiment, the course will not just prepare you for a career in the cultural sector, but help you to engage with it imaginatively, critically and tactically.

Placements

Placements are student-led and supported by the research and organisational network of the course leaders. Students on the MA in Culture Industry have undertaken placements at the BBC, Stephen Graham Gallery, White Cube gallerySHAPE ArtsChinatown Oral History ProjectMaximum Rock n Roll, the British CouncilBlack Dog PublishingResonance FMGlasgow BiennaleLondon Architecture WeekGlastonbury FestivalLondon Film Festival, the British MuseumSouth Bank CentreGrizedale Arts, the Japan Foundation, the London Anime and Gaming Con, and Sound and Music.

Students' projects

Our students’ projects are very diverse, and have included exhibitions, publications, websites, photographic projects, market stalls, travel guides, films, novels, app prototypes, ethnographies, and community resource projects.

Modules & structure

Core modules

Recommended option modules

You take option modules to the value of 30 credits. This could include:

Assessment

Essays; project report and documentation/placement report and documentation; research lab participation.

Download the programme specification. If you would like an earlier version of the programme specification, please contact the Quality Office.

Please note that due to staff research commitments not all of these modules may be available every year.



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