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University of Surrey: Advanced Geotechnical Engineering
Institution | University of Surrey View institution profile |
---|---|
Department | FEPS - Faculty of Engineering and Physical Sciences |
Web | www.surrey.ac.uk |
admissions@surrey.ac.uk | |
Telephone | +44(0)1483 682222 |
Study type | Taught |
MSc
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the Earth’s materials – is a sector with a huge global skills shortage. This means that well-trained geotechnical engineers are in high demand.
Our MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities, such as our Geotechnics and Geology Teaching Laboratory, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in industry.
**What you will study**
Our MSc will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation and from advanced soil testing to foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore a variety of topics, including deep foundations in urban areas, deep water energy resources exploration, field monitoring, foundations for energy infrastructure and major bridges, and tunnelling.
The course covers the following:
-Analysis techniques
-Simplified (spreadsheet-based)
-Standard (code-based methods or simple software)
-Advanced (finite element method)
-Back analysis of collapse of foundations
-Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
-Dissertation on a geotechnical topic
-Fundamental soil mechanics and its modelling using numerical approaches
-Testing of soils to obtain design parameters – we use our purpose-built SAGE laboratory for teaching.
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of a 2:2 UK honours degree in civil engineering (or geology, engineering geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc programme and/or professional experience. English language requirements |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the Earth’s materials – is a sector with a huge global skills shortage. This means that well-trained geotechnical engineers are in high demand.
Our MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities, such as our Geotechnics and Geology Teaching Laboratory, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in industry.
**What you will study**
Our MSc will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation and from advanced soil testing to foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore a variety of topics, including deep foundations in urban areas, deep water energy resources exploration, field monitoring, foundations for energy infrastructure and major bridges, and tunnelling.
The course covers the following:
-Analysis techniques
-Simplified (spreadsheet-based)
-Standard (code-based methods or simple software)
-Advanced (finite element method)
-Back analysis of collapse of foundations
-Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
-Dissertation on a geotechnical topic
-Fundamental soil mechanics and its modelling using numerical approaches
-Testing of soils to obtain design parameters – we use our purpose-built SAGE laboratory for teaching.
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of a 2:2 UK honours degree in civil engineering (or geology, engineering geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc programme and/or professional experience. English language requirements |
Location | Stag Hill Stag Hill Guildford GU2 7XH |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the Earth’s materials – is a sector with a huge global skills shortage. This means that well-trained geotechnical engineers are in high demand.
Our MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities, such as our Geotechnics and Geology Teaching Laboratory, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in industry.
**What you will study**
Our MSc will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation and from advanced soil testing to foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore a variety of topics, including deep foundations in urban areas, deep water energy resources exploration, field monitoring, foundations for energy infrastructure and major bridges, and tunnelling.
The course covers the following:
-Analysis techniques
-Simplified (spreadsheet-based)
-Standard (code-based methods or simple software)
-Advanced (finite element method)
-Back analysis of collapse of foundations
-Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
-Dissertation on a geotechnical topic
-Fundamental soil mechanics and its modelling using numerical approaches
-Testing of soils to obtain design parameters – we use our purpose-built SAGE laboratory for teaching.
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of a 2:2 UK honours degree in civil engineering (or geology, engineering geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc programme and/or professional experience. English language requirements |
Location | Stag Hill Stag Hill Guildford GU2 7XH |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the earth’s materials – is a sector with a huge global skills shortage, meaning that well-trained geotechnical engineers are in high demand.
Our Advanced Geotechnical Engineering MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities such as our geotechnical lab, which has recently benefitted from a £450,000 investment, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in the industry.
**What you will study**
Our MSc Advanced Geotechnical Engineering will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation, advanced soil testing and foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore topics including deep foundations in urban areas, tunnelling, foundations for energy infrastructure and major bridges, deep water energy resources exploration and field monitoring.
You’ll also have the opportunity to work on a research project, enabling you to acquire, analyse and critically evaluate data, then draw valid conclusions from it. It will test your understanding of scientific methodology, and allow you to graduate as a confident and capable geotechnical engineer.
The course covers the following:
Fundamental soil mechanics and its modelling using numerical approaches
Testing of soils for obtaining design parameters – we use our purpose-built SAGE laboratory for teaching
Analysis techniques:
Simplified (Spreadsheet based)
Standard (code-based methods or simple software)
Advanced (Finite Element Method)
Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
Dissertation on a geotechnical topic
Back analysis of collapse of foundations
Related courses
Bridge Engineering MSc
Civil Engineering MSc
Infrastructure Engineering and Management MSc
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of a 2:2 UK honours degree in civil engineering (or geology, engineering geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc programme and/or professional experience. English language requirements |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the earth’s materials – is a sector with a huge global skills shortage, meaning that well-trained geotechnical engineers are in high demand.
Our Advanced Geotechnical Engineering MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities such as our geotechnical lab, which has recently benefitted from a £450,000 investment, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in the industry.
**What you will study**
Our MSc Advanced Geotechnical Engineering will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation, advanced soil testing and foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore topics including deep foundations in urban areas, tunnelling, foundations for energy infrastructure and major bridges, deep water energy resources exploration and field monitoring.
You’ll also have the opportunity to work on a research project, enabling you to acquire, analyse and critically evaluate data, then draw valid conclusions from it. It will test your understanding of scientific methodology, and allow you to graduate as a confident and capable geotechnical engineer.
The course covers the following:
Fundamental soil mechanics and its modelling using numerical approaches
Testing of soils for obtaining design parameters – we use our purpose-built SAGE laboratory for teaching
Analysis techniques:
Simplified (Spreadsheet based)
Standard (code-based methods or simple software)
Advanced (Finite Element Method)
Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
Dissertation on a geotechnical topic
Back analysis of collapse of foundations
Related courses
Bridge Engineering MSc
Civil Engineering MSc
Infrastructure Engineering and Management MSc
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of a 2:2 UK honours degree in civil engineering (or geology, engineering geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc programme and/or professional experience. English language requirements |
Location | Stag Hill Stag Hill Guildford GU2 7XH |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the earth’s materials – is a sector with a huge global skills shortage, meaning that well-trained geotechnical engineers are in high demand.
Our Advanced Geotechnical Engineering MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities such as our geotechnical lab, which has recently benefitted from a £450,000 investment, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in the industry.
**What you will study**
Our MSc Advanced Geotechnical Engineering will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation, advanced soil testing and foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore topics including deep foundations in urban areas, tunnelling, foundations for energy infrastructure and major bridges, deep water energy resources exploration and field monitoring.
You’ll also have the opportunity to work on a research project, enabling you to acquire, analyse and critically evaluate data, then draw valid conclusions from it. It will test your understanding of scientific methodology, and allow you to graduate as a confident and capable geotechnical engineer.
The course covers the following:
Fundamental soil mechanics and its modelling using numerical approaches
Testing of soils for obtaining design parameters – we use our purpose-built SAGE laboratory for teaching
Analysis techniques:
Simplified (Spreadsheet based)
Standard (code-based methods or simple software)
Advanced (Finite Element Method)
Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
Dissertation on a geotechnical topic
Back analysis of collapse of foundations
Related courses
Bridge Engineering MSc
Civil Engineering MSc
Infrastructure Engineering and Management MSc
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of a 2:2 UK honours degree in civil engineering (or geology, engineering geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc programme and/or professional experience. English language requirements |
Location | Stag Hill Stag Hill Guildford GU2 7XH |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the earth’s materials – is a sector with a huge global skills shortage, meaning that well-trained geotechnical engineers are in high demand.
Our Advanced Geotechnical Engineering MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities such as our geotechnical lab, which has recently benefitted from a £450,000 investment, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in the industry.
**What you will study**
Our MSc Advanced Geotechnical Engineering will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation, advanced soil testing and foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore topics including deep foundations in urban areas, tunnelling, foundations for energy infrastructure and major bridges, deep water energy resources exploration and field monitoring.
You’ll also have the opportunity to work on a research project, enabling you to acquire, analyse and critically evaluate data, then draw valid conclusions from it. It will test your understanding of scientific methodology, and allow you to graduate as a confident and capable geotechnical engineer.
The course covers the following:
Fundamental soil mechanics and its modelling using numerical approaches
Testing of soils for obtaining design parameters – we use our purpose-built SAGE laboratory for teaching
Analysis techniques:
Simplified (Spreadsheet based)
Standard (code-based methods or simple software)
Advanced (Finite Element Method)
Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
Dissertation on a geotechnical topic
Back analysis of collapse of foundations
Related courses
Bridge Engineering MSc
Civil Engineering MSc
Infrastructure Engineering and Management MSc
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of a 2:2 UK honours degree in civil engineering (or geology, engineering geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc programme and/or professional experience. English language requirements |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the earth’s materials – is a sector with a huge global skills shortage, meaning that well-trained geotechnical engineers are in high demand.
Our Advanced Geotechnical Engineering MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities such as our geotechnical lab, which has recently benefitted from a £450,000 investment, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in the industry.
**What you will study**
Our MSc Advanced Geotechnical Engineering will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation, advanced soil testing and foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore topics including deep foundations in urban areas, tunnelling, foundations for energy infrastructure and major bridges, deep water energy resources exploration and field monitoring.
You’ll also have the opportunity to work on a research project, enabling you to acquire, analyse and critically evaluate data, then draw valid conclusions from it. It will test your understanding of scientific methodology, and allow you to graduate as a confident and capable geotechnical engineer.
The course covers the following:
Fundamental soil mechanics and its modelling using numerical approaches
Testing of soils for obtaining design parameters – we use our purpose-built SAGE laboratory for teaching
Analysis techniques:
Simplified (Spreadsheet based)
Standard (code-based methods or simple software)
Advanced (Finite Element Method)
Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
Dissertation on a geotechnical topic
Back analysis of collapse of foundations
Related courses
Bridge Engineering MSc
Civil Engineering MSc
Infrastructure Engineering and Management MSc
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of a 2:2 UK honours degree in civil engineering (or geology, engineering geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc programme and/or professional experience. English language requirements |
Location | Stag Hill Stag Hill Guildford GU2 7XH |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the earth’s materials – is a sector with a huge global skills shortage, meaning that well-trained geotechnical engineers are in high demand.
Our Advanced Geotechnical Engineering MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities such as our geotechnical lab, which has recently benefitted from a £450,000 investment, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in the industry.
**What you will study**
Our MSc Advanced Geotechnical Engineering will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation, advanced soil testing and foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore topics including deep foundations in urban areas, tunnelling, foundations for energy infrastructure and major bridges, deep water energy resources exploration and field monitoring.
You’ll also have the opportunity to work on a research project, enabling you to acquire, analyse and critically evaluate data, then draw valid conclusions from it. It will test your understanding of scientific methodology, and allow you to graduate as a confident and capable geotechnical engineer.
The course covers the following:
Fundamental soil mechanics and its modelling using numerical approaches
Testing of soils for obtaining design parameters – we use our purpose-built SAGE laboratory for teaching
Analysis techniques:
Simplified (Spreadsheet based)
Standard (code-based methods or simple software)
Advanced (Finite Element Method)
Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
Dissertation on a geotechnical topic
Back analysis of collapse of foundations
Related courses
Bridge Engineering MSc
Civil Engineering MSc
Infrastructure Engineering and Management MSc
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of a 2:2 UK honours degree in civil engineering (or geology, engineering geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc programme and/or professional experience. English language requirements |
Location | Stag Hill Stag Hill Guildford GU2 7XH |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the earth’s materials – is a sector with a huge global skills shortage, meaning that well-trained geotechnical engineers are in high demand.
Our Advanced Geotechnical Engineering MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities such as our geotechnical lab, which has recently benefitted from a £450,000 investment, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in the industry.
**What you will study**
Our MSc Advanced Geotechnical Engineering will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation, advanced soil testing and foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore topics including deep foundations in urban areas, tunnelling, foundations for energy infrastructure and major bridges, deep water energy resources exploration and field monitoring.
You’ll also have the opportunity to work on a research project, enabling you to acquire, analyse and critically evaluate data, then draw valid conclusions from it. It will test your understanding of scientific methodology, and allow you to graduate as a confident and capable geotechnical engineer.
The course covers the following:
Fundamental soil mechanics and its modelling using numerical approaches
Testing of soils for obtaining design parameters – we use our purpose-built SAGE laboratory for teaching
Analysis techniques:
Simplified (Spreadsheet based)
Standard (code-based methods or simple software)
Advanced (Finite Element Method)
Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
Dissertation on a geotechnical topic
Back analysis of collapse of foundations
Related courses
Bridge Engineering MSc
Civil Engineering MSc
Infrastructure Engineering and Management MSc
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of 50 per cent in a UK honours degree in Civil Engineering (or Geology, Engineering Geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc Programme and/or professional experience. English language requirements |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the earth’s materials – is a sector with a huge global skills shortage, meaning that well-trained geotechnical engineers are in high demand.
Our Advanced Geotechnical Engineering MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities such as our geotechnical lab, which has recently benefitted from a £450,000 investment, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in the industry.
**What you will study**
Our MSc Advanced Geotechnical Engineering will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation, advanced soil testing and foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore topics including deep foundations in urban areas, tunnelling, foundations for energy infrastructure and major bridges, deep water energy resources exploration and field monitoring.
You’ll also have the opportunity to work on a research project, enabling you to acquire, analyse and critically evaluate data, then draw valid conclusions from it. It will test your understanding of scientific methodology, and allow you to graduate as a confident and capable geotechnical engineer.
The course covers the following:
Fundamental soil mechanics and its modelling using numerical approaches
Testing of soils for obtaining design parameters – we use our purpose-built SAGE laboratory for teaching
Analysis techniques:
Simplified (Spreadsheet based)
Standard (code-based methods or simple software)
Advanced (Finite Element Method)
Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
Dissertation on a geotechnical topic
Back analysis of collapse of foundations
Related courses
Bridge Engineering MSc
Civil Engineering MSc
Infrastructure Engineering and Management MSc
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of 50 per cent in a UK honours degree in Civil Engineering (or Geology, Engineering Geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc Programme and/or professional experience. English language requirements |
Location | Stag Hill Stag Hill Guildford GU2 7XH |
Summary
**Why choose this course**
Geotechnical engineering – the mechanics of the earth’s materials – is a sector with a huge global skills shortage, meaning that well-trained geotechnical engineers are in high demand.
Our Advanced Geotechnical Engineering MSc will equip you with the necessary skills and knowledge to pursue an exciting career in the geotechnical engineering sector, including offshore and earthquake geotechnics.
You’ll be taught in highly specialised facilities such as our geotechnical lab, which has recently benefitted from a £450,000 investment, by academics who are leaders in their field. Throughout your course, you’ll also benefit from the expert knowledge of specialist guest speakers, including visiting academics and engineers working in the industry.
**What you will study**
Our MSc Advanced Geotechnical Engineering will develop your understanding of the principles and theories behind ground engineering, from soil mechanics to site investigation, advanced soil testing and foundation design. We’ll provide you with the necessary skills to address technological challenges in the geotechnical engineering sector.
You’ll explore topics including deep foundations in urban areas, tunnelling, foundations for energy infrastructure and major bridges, deep water energy resources exploration and field monitoring.
You’ll also have the opportunity to work on a research project, enabling you to acquire, analyse and critically evaluate data, then draw valid conclusions from it. It will test your understanding of scientific methodology, and allow you to graduate as a confident and capable geotechnical engineer.
The course covers the following:
Fundamental soil mechanics and its modelling using numerical approaches
Testing of soils for obtaining design parameters – we use our purpose-built SAGE laboratory for teaching
Analysis techniques:
Simplified (Spreadsheet based)
Standard (code-based methods or simple software)
Advanced (Finite Element Method)
Design and construction of foundations for bridges, buildings, offshore structures, tunnels and deep basements in busy cities
Dissertation on a geotechnical topic
Back analysis of collapse of foundations
Related courses
Bridge Engineering MSc
Civil Engineering MSc
Infrastructure Engineering and Management MSc
Level | RQF Level 7 |
---|---|
Entry requirements | A minimum of 50 per cent in a UK honours degree in Civil Engineering (or Geology, Engineering Geology and other allied subjects), or equivalent recognised international degree. Applicants will be considered on an individual basis, based on strength in specific subjects related to the MSc Programme and/or professional experience. English language requirements |
Location | Stag Hill Stag Hill Guildford GU2 7XH |
Overview
Welcome to the University of Surrey, a global community of more than 16,000 students from 140 countries.
We’re based in the popular town of Guildford, just 35 minutes from central London by train. Our beautiful, green campus is home to outstanding learning facilities in every faculty, plus a comprehensive range of student services, a wide choice of accommodation and dedicated support for international students, to help you make the most of university life.
Master’s programmes
At Surrey, we want to shape the world for the better. If you’re considering postgraduate study, it’s likely you do too.
We have three …
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