BSc Environmental Earth Sciences with a Year in Industry (F645)
- Course Code UNU1F645401
- Duration 4 Years
- Attendance Full Time
- Award Degree of Bachelor of Science
- Overview
- Why Choose Us
- Year in Industry
- Requirements
- Course Profile
- Fees and Funding
- Apply
Overview
Environmental Earth Sciences takes an integrated approach to studying the solid Earth. There are no fixed boundaries between the solid Earth and its environment.Students explore the inter-relationships between the solid Earth and all aspects of its environment, including political, economic and social issues. Conventional subject boundaries are broken to give you an integrated education. You will use principles of geology, physical geography, chemistry, biology, maths and social science, to investigate how the solid Earth affects human society and how human society impacts on the solid Earth. Graduates in Environmental Earth Sciences from UEA are in great demand from industry because of the high esteem in which the School of Environmental Sciences is held in the wider geosciences community and for the levels of laboratory, field and transferable skills acquired during the course.
The Year in Industry programme involves four years of study with the first two years being spent at UEA following the BSc Environmental Earth Sciences programme. The third year is spent on an industrial placement with a relevant scientific placement provider. You will return to UEA for your fourth and final year.
Because the degree programme is taught within the School of Environmental Sciences you will be able to choose a very flexible path of study. The degree programme is designed to give you a solid foundation to your chosen career. The first year ensures you have the necessary building blocks to choose effectively from the wide range of courses on offer in the second and third years. The first year will also introduce you to a range of subjects you are unlikely to have come across until now.
Study Environmental Earth Sciences at UEA and find out the answers to the following questions and many more...
- What is plate tectonics?
- How do deep sea trenches form?
- How has sea level changed with time?
- How do beaches form?
- What causes the topography of the ocean floor?
- How do rivers, wind and ice sculpt hills and valleys?
- How do the oceans and atmosphere interact?
- How is Earth's weather produced?
- What can we learn from the geological record?
- How do rocks differ from each other?
- What happens during an earthquake?
- Why use coastal defences?
- How quickly do continents move?
- What happens to the Earth during a meteorite impact?
- Can we minimise the risks of flooding?
- What happens inside an erupting volcano?
Field courses and practical classes are essential in training the environmental earth science students. You will be introduced to many different geological environments and learn a variety of practical techniques using specialist equipment through the wide range of field courses available.
This pathway is also accredited by the Geological Society of London, as a first degree that offers sound training for a professional career in the geosciences and which satisfies their academic requirements of Fellowship and Chartered Geologist status.
Course Organiser
Prof Jan Alexander
Course Brochure
Why Choose Us?
Environmental science is a rapidly progressing, vibrant and exciting field of study with excellent career prospects in the UK and beyond.Environmental Science is a modern scientific discipline that will have a profound effect on human society as environmental concerns become paramount at the beginning of the 21st century.
A human population of over 6 billion demands energy, transport, and technology, while climate change threatens the security of the most vulnerable peoples on the planet
Management of pollution and waste is essential to protect human health;
Global environment change is eroding the planets biological diversity;
Natural hazards threaten infrequent but catastrophic disasters;
Solving these urgent problems requires the expertise of trained environmental scientists. In ENV you will be trained to understand the complex interactions of human society with the bio-geosphere and to provide solutions for enhanced industry and sustainable economies. Inter-disciplinary scientists are needed to communicate the solutions and influence policy at local, national and global scales.
Volcanology, seismology, ecology, conservation, meteorology, oceanography, environmental economics, environmental politics, geochemistry, soil science, climate change and energy resources are just a few of the subjects you could study. Whether you choose to study a broad range of the environmental sciences or specialise in one field, you can be sure that your degree will be challenging and inspiring from beginning to end.
A Year in Industry
At the School of Environmental Sciences, UEA, Norwich we provide an Industry option available with all of our degree programmes.
These degree programmes will enable you to gain vital work experience as part of your degree programme, ensuring you graduate with excellent career prospects.
The Year in Industry degree programmes are four years in duration. You will spend the first two years at UEA, Norwich. The third year is spent on a work placement and the fourth and final year is spent back at UEA, Norwich.
The School of Environmental Sciences has well established commercial links throughout the UK and beyond, many of which you may be able to benefit from. Students are expected to seek their own work placements. Not only will this ensure that you work within your preferred field of Environmental Sciences, it will also provide you with the essential job-hunting skills you will require after graduation.
Throughout the work placement, students will be expected to keep in close contact with an assigned mentor at UEA. Your mentor will also visit you at least once during your Year in Industry. By keeping a regularly updated work diary, your mentor will be able to ensure you are fulfilling all of the necessary learning objectives of a Year in Industry.
Please note we cannot guarantee any student a work placement as this decision rests with potential employers and students will be expected to source these placements themselves. Limited support will be available from the University. If you have not successfully secured a work placement by the end of your second year you will be transferred onto the equivalent three year degree programme.”
These degree programmes will enable you to gain vital work experience as part of your degree programme, ensuring you graduate with excellent career prospects.
The Year in Industry degree programmes are four years in duration. You will spend the first two years at UEA, Norwich. The third year is spent on a work placement and the fourth and final year is spent back at UEA, Norwich.
The School of Environmental Sciences has well established commercial links throughout the UK and beyond, many of which you may be able to benefit from. Students are expected to seek their own work placements. Not only will this ensure that you work within your preferred field of Environmental Sciences, it will also provide you with the essential job-hunting skills you will require after graduation.
Throughout the work placement, students will be expected to keep in close contact with an assigned mentor at UEA. Your mentor will also visit you at least once during your Year in Industry. By keeping a regularly updated work diary, your mentor will be able to ensure you are fulfilling all of the necessary learning objectives of a Year in Industry.
Please note we cannot guarantee any student a work placement as this decision rests with potential employers and students will be expected to source these placements themselves. Limited support will be available from the University. If you have not successfully secured a work placement by the end of your second year you will be transferred onto the equivalent three year degree programme.”
Entry Requirements
- A Level ABB (inc one science)
- International Baccalaureate 32 (incl 3 HL subjects at grade 5, one HL to be a science)
- Scottish Highers AABBB
- Irish Leaving Certificate AABBBB
- Access Course See below
- European Baccalaureate 75% overall
Students for whom English is a foreign language
If English is not your first language you must have a recognised English Language qualification: Minimum IELTS 6.0 with a 5.5 in each sub-section, or TOEFL 550 (213 CBT / 80 IBT). Please contact us for more information about other qualifications that we may consider.
If you do not meet the academic and or English requirements for direct entry our partner, INTO University of East Anglia offers guaranteed progression on to this undergraduate degree upon successful completion of a preparation programme. Depending on your interests, and your qualifications you can take a variety of routes to this degree:
International Foundation in the Sciences
Interviews
The majority of candidates will not be called for an interview. However, for some students an interview will be requested. These are normally quite informal and generally cover topics such as your current studies, reasons for choosing the course and your personal interests and extra-curricular activities.
Gap Year
We welcome applications from students who have already taken or intend to take a gap year, believing that a year between school and university can be of substantial benefit. You are advised to indicate your reason for wishing to defer entry and may wish to contact the appropriate Admissions Office directly to discuss this further.
Special Entry Requirements
Applicants are asked to have at least one science based A2-level or equivalent. Acceptable science subjects include: Biology, Chemistry, Economics, Environmental Science, Geography, Geology, Mathematics, Physics.
General Studies and Critical Thinking are not accepted.
Intakes
The School's annual intake is in September of each year.
Alternative Qualifications
We encourage you to apply if you have alternative qualifications equivalent to our stated entry requirement. Please contact us for further information.
Pass the Access to HE Diploma with Distinction in 36 credits at Level 3 and Merit in 9 credits at Level 3, including 12 Level 3 Science credits.
Pass the Access to HE Diploma with Distinction in 36 credits at Level 3 and Merit in 9 credits at Level 3, including 12 Level 3 Science credits.
GCSE Offer
Students are required to have Mathematics and English at minimum of Grade C or above at GCSE Level.
- Year 1
- Year 2
- Year 3
- Year 4
Year 1
Compulsory Study (90 credits)
Students will select 90 credits from the following module(s).
| Name | Code | Credits | Period |
|---|---|---|---|
|
Atmosphere and Ocean
This module studies the physical processes occurring in the atmosphere and ocean, with emphasis on the links between the two. Radiation from the Sun and its effect on the Earth. Structure and circulation of the atmosphere. Ocean currents and the thermohaline circulation. Hydrostatic equation and pressure forces. Stability, air masses and fronts. Coriolis force and geostrophy. The effect of the wind on the ocean. Hydrological cycle. If you have not taken 1A25 Forces of Nature, a little background reading will help on concepts such as pressure, density, buoyancy and Coriolis force. Taught in the second half of semester.
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ENV-1A56 | 10 | Semester 2 |
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Biodiversity in A Changing World
Briefly introduces a wide range of major topics in conservation ecology, coupled with concepts relevant to the structure and functioning of the rapidly changing biosphere, from ecosystem, through community, population, behavioural, physiological to molecular ecology and conservation genetics. PREFERENCE WILL BE GIVEN TO STUDENTS REGISTERED IN THE SCHOOL OF ENVIRONMENTAL SCIENCES, AND ECOLOGY STUDENTS. Taught in second half of semester.
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ENV-1A26 | 10 | Semester 2 |
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Dynamic Earth
The structure and behaviour of our dynamic planet are investigated. The module is underpinned by the theory of Plate Tectonics as a means of explaining Earth's remarkable physiographic features, such as mountain belts and volcanoes and it also considers how processes of erosion and deposition modify them. The Module will introduce geological time and the 4.6 billion year record of changing conditions. It will introduce geological materials, resources and hazards. No prior knowledge of geology is assumed.
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ENV-1A67 | 10 | Semester 1 |
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Forces of Nature
The understanding of natural systems and environmental technologies is often underpinned by physical laws and processes. `Forces of nature' explores the most important of these (energy, mechanics, physical properties of Earth materials) and their relevance to environmental science using examples from across the Earth's differing systems. This module forms an important building block for many modules that follow it.
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ENV-1A25 | 10 | Semester 1 |
|
Global Environmental Challenges
What are the most pressing environmental challenges facing the world today? How do we understand these problems through cutting-edge environmental science research? What are the possibilities for building sustainable solutions to address them in policy and society? In this module you will tackle these questions by taking an interdisciplinary approach to consider challenges relating to climate change, biodiversity, water resources, natural hazards, and technological risks. In doing so you will gain an insight into environmental science research `in action' and develop essential academic study skills needed to explore these issues. Please note this module is only available for ENV students and BIO Ecology students only.
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ENV-1A29 | 20 | Semester 1 |
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Research & Field Skills 1
This module introduces a range of transferable skills, tools and data resources that are widely used in research across the Environmental Sciences. The aim is to provide a broad understanding of the research process by undertaking different activities that involve i) formulating research questions, ii) collecting data using appropriate sources and techniques, iii) collating and evaluating information and iv) presenting results. The module will include the use of GPS, satellite remote sensing and digital mapping technologies, whilst also emphasising self and peer assessment of research activities.
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ENV-1A41 | 10 | Semester 1 |
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Research & Field Skills 2
This module builds upon the range of transferable skills and techniques introduced in Research and Field Skills 1. There are two main components. The first will introduce the use of Geographical Information Systems (GIS), explaining the main analysis techniques with applications from across the Environmental Sciences. The second component will be a 6 day fieldcourse to be held at Slapton Ley, Devon during the last week of the Easter break. During the fieldcourse students will have the opportunity to apply skills learnt earlier in other modules, gain experience with new field techniques and undertake a small group project of their own choice. Assessment of the fieldcourse will be based on a poster presentation of this project work. THIS MODULE IS AVAILABLE ONLY TO STUDENTS REGISTERED IN THE SCHOOL OF ENVIRONMENTAL SCIENCES. Taught in the first half of semester.
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ENV-1A42K | 10 | Semester 2 |
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Sustainability and Society
Striking a balance between societal development, economic growth and environmental protection has proven difficult and controversial. The terms `sustainability' and `sustainable development' have been used in attempts to reconcile these three areas. Yet the ill-defined and contradictory nature of these concepts has also hampered their implementation. This module considers sustainability in theory and practice by examining the relationships between environment and society, through the contributions of a variety of social science disciplines. Taught in the first half of semester.
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ENV-1A28 | 10 | Semester 2 |
Option A Study (20 credits)
Students will select 20 credits from the following module(s).
| Name | Code | Credits | Period |
|---|---|---|---|
|
Numerical Skills for Scientists I
Designed for students who have not achieved Grade C or above in A level mathematics or equivalent, this module will introduce essential mathematics (reading graphs, logs, exponentials, concept of rate of change, manipulating formulae) and statistics (distributions, tests of differences and association). Statistical and numerical skills will also be embedded in other level 1 modules in Environmental Sciences via lecture material and practical classes.
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ENV-1A51 | 10 | Semester 1 |
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Numerical Skills for Scientists II
Designed to follow Numerical Skills for Scientists I, this module will reinforce and build on the mathematics and statistics taught in Semester 1, continuing numerical exposure through the year so that students are better prepared for level 2 modules in Environmental Sciences. Statistical and numerical skills will also be embedded in other level 1 modules in Environmental Sciences via lecture material and practical classes.
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ENV-1A52 | 10 | Semester 2 |
Option B Study (10 credits)
Students will select 10 credits from the following module(s).
| Name | Code | Credits | Period |
|---|---|---|---|
|
Earth's Chemical Processes 1
This module provides an introduction to chemical processes in the atmosphere, hydrosphere, seawater, soils, sediments and rocks. Both the natural and anthropogenically perturbed system will be considered.
This module assumes no previous chemical knowledge and will include a basic chemistry component.
Students with previous experience of chemistry (A, AS level or equivalent) should take Earth's Chemical Processes 2.
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ENV-1A32 | 10 | Semester 2 |
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Earth's Chemical Processes II
This module provides an introduction to chemical processes in the atmosphere, hydrosphere, seawater, soils, sediments and rocks. Both the natural and anthropogenically perturbed system will be considered.
Students taking this module are expected to have previous experience of Chemistry at A, AS Levels or equivalent. Taught in the second half of semester.
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ENV-1A34 | 10 | Semester 2 |
Year 2
Compulsory Study (10 credits)
Students will select 10 credits from the following module(s).
| Name | Code | Credits | Period |
|---|---|---|---|
|
Earth Science Skills
Good observational and descriptive skills lie at the heart of many areas of Environmental Science. This module is designed to develop those and is particularly suitable for students with interests in Earth and Geophysical Sciences. It will cover generic Earth Science skills of use for projects in this area. The module will include: observing, describing and recording the characteristics of geological materials (hand specimen and under microscope); measuring and representing 3d data, and reading geological maps. It will be taught mostly in laboratory classes and by self-study exercises. Taught in the second half of the semester.
Before taking this module you must take (or be taking) at least 40 credits of Earth Science or Geophysics Modules at honours level.
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ENV-2A96 | 10 | Semester 2 |
Option A Study (90 credits)
Students will select 90 credits from the following module(s).
| Name | Code | Credits | Period |
|---|---|---|---|
|
Earth Science Field Skills
In addition to the laboratory-based skills offered in ENV 2A96 (Earth Science Skills) this module concentrates on Earth Science field observation, description and interpretation. During a residential course you will develop a field skill-set, which is designed for students planning an independent project requiring Earth Science field skills. This module is strongly recommended for Environmental Earth Science students. The primary focus will be on geological mapping, structure and stratigraphy, but this module may include hydrogeological, geochemical and Quaternary techniques depending on field location and staff availability Assessment is course work only.
Students should have completed at least 40 credits of Earth Science or Geophysics modules before taking this module.
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ENV-2A98K | 10 | Semester 2 |
|
Earth System Geochemistry
Examines how the earth system and its geochemical cycling operate on both global and micro scales. Emphasis is on natural cycles, starting with big themes such as crust-hydrosphere-biosphere interaction and its effects on the long term C cycle, including regulation of carbon dioxide. Elements, isotopes, organic molecules (and their isotopic compositions) are used as tracers of processes and events in earth history. Organic matter, its chemistry and its relationship to both the C and S cycles is explored. Dating of geological materials with radiometric methods is introduced. The course explores themes in both deep time (millions of years) and more recent glacial-interglacial cycles (thousands to hundreds of thousands of years).
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ENV-2A30 | 20 | Semester 2 |
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Environmental Analytical Chemistry
This module is designed to teach skills necessary for the acquisition of good quality chemical data in environmental systems, and in the interpretation of this data. The module will focus on the collection of environmental samples for chemical analysis, methods of chemical analysis and the analytical and mathematical techniques used for data quality control. There will be a large component of practical work.
This module will be particularly relevant for those wishing to do a chemistry-related project later in their degree. Taught in the first half of the semester.
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ENV-2A92 | 10 | Semester 2 |
|
Geodynamics: Earth's Engine
Processes in the Earth's interior have exerted a profound influence on all aspects of the Earth's system through geological time. This module is designed to explore all aspects of those processes from the creation and destruction of tectonic plates to the structure of the Earth's interior and the distribution and dissipation of energy within it. This will include: the theory and mechanisms of plate tectonics, the heat distribution of the Earth's interior, the generation of magma and volcanism; the mechanisms behind earthquakes and distribution of seismic energy. The geological record of this activity, its evolution and impacts on the Earth will also be discussed.
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ENV-2A43 | 20 | Semester 1 |
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Gis Skills for Dissertations
This module focuses on the practical use of GIS for dissertations. After an introductory `refresher' of GIS basics it will review the different techniques that can be used to create and edit data in a GIS, as well as existing digital databases from which map data can be extracted and downloaded. Particular attention will be given to Ordnance Survey mapping for the UK, but other international resources will also be discussed. The module will emphasise issues of error and uncertainty as they apply to spatial data and introduce the use of the ArcGIS ModelBuilder as a way of documenting and efficiently repeating more complex analysis procedures. Assessment will be through a small group project involving the download, integration, analysis and display of spatial data. Taught in the second half of the semester.
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ENV-2A94 | 10 | Semester 2 |
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Hydrology and Hydrogeology
An introduction to hydrology and hydrogeology: the basic equations describing fluid movement in groundwater systems will be derived and applied. The main techniques to investigate groundwater flow systems are highlighted. Water circulation within river catchments is discussed by means of the catchment water balance. The physical process
represented by each component of the water balance will be covered as well as the current methods of quantifying these fluxes of water within the catchment . Principles of catchment modelling are outlined.
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ENV-2A65 | 20 | Semester 1 |
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Low Carbon Energy
This module will focus on the decarbonisation of energy supply and demand in a carbon constrained world. It will examine the role of energy efficiency and low carbon energy technologies, such as wind energy, solar energy, hydrogen and fuel cells, taking into consideration important current issues and sectors for application. This knowledge is used to support an analysis of future energy supply and demand that includes management, policy and technical aspects. This version of the module is assessed by coursework and an exam.
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ENV-2A82 | 20 | Semester 2 |
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Low Carbon Energy With Fieldcourse
This module will focus on the decarbonisation of energy supply and demand in a carbon constrained world. It will examine the role of energy efficiency and low carbon energy technologies, such as wind energy, solar energy, hydrogen and fuel cells, taking into consideration important current issues and sectors for application. This knowledge is used to support an analysis of future energy supply and demand that includes management, policy and technical aspects. This version of the module, which includes a one week field course that will take place at Easter, is assessed by coursework and fieldwork projects. There is no exam.
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ENV-2A82K | 20 | Semester 2 |
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Mathematics for Scientists III
This module is the third in the series of four mathematical modules for students across the Faculty of Science. It covers vector calculus (used in the study of vector fields in subjects such as fluid dynamics and electromagnetism), time series and spectral analysis (a highly adaptable and useful mathematical technique in many science fields, including data analysis) and fluid dynamics (which has applications to the circulation of the atmosphere, ocean, interior of the Earth, chemical engineering, and biology). There is a continuing emphasis on applied examples, and the use of numerical computing software (Matlab).
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ENV-2A21 | 20 | Semester 1 |
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Mathematics for Scientists IV
This module is the fourth in a series of four mathematical modules for students across the Faculty of Science. It covers matrix algebra and numerical methods (with applications to many multi-variable problems in science) second order partial differential equations (which govern the behaviour of diffusive, advective and wave-like systems) and solid mechanics (applications in geophysics, glaciology and material science). There is a continuing emphasis on applied examples, and the use of numerical computing software (Matlab) is extended with a dedicated programming component.
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ENV-2A22 | 20 | Semester 2 |
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Sedimentology
Sedimentary rocks contain many of the world's natural resources and cover much of the Earth's surface, record the Earth's history, and contain the fossil record. Sedimentology includes the study of modern sediments such as sand, mud and carbonates and the processes that result in their deposition. Understanding of modern processes is used to interpret ancient sedimentary rocks and sedimentary structures. The module will cover sedimentary fluid dynamics; modern sediments from deserts, rivers, the coast and deep ocean, the differences between siliciclastic and carbonate rocks; biological influence on sedimentary processes and stratigraphy (the study of the physical and temporal relationships between rock layers).
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ENV-2A25 | 20 | Semester 1 |
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Soil Processes and Environmental Issues
This module will combine lectures, practicals, seminars and fieldwork to provide students with an appreciation of the soil environment and the processes that occurs within it. The module will progress through: basic soil components/properties; soil identification and classification; soil as a habitat; soil organisms; soil functions; the agricultural environment; soil-organism-agrochemical interaction; soil contamination; soil and climate change.
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ENV-2A27 | 20 | Semester 1 |
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Solid Earth Geophysics
What lies beneath our feet? This module addresses this question by exploring how waves, rays and the various physical techniques are used in geophysics to image the subsurface on scales of meters to kilometers. The basic theory and interpretation methods of seismic, electrical and gravity and magnetic surveys are studied. A wide range of applications is covered including archaeological geophysics, energy resources and geohazards.
Students doing this module are normally expected to have a good mathematical ability, notably in calculus and algebra before taking this module (ENV-1A61 Mathematics for Scientists I, ENV-1A62 Mathematics for Scientists II or equivalent).
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ENV-2A12 | 20 | Semester 2 |
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Solid Earth Geophysics With Fieldcourse
What lies beneath our feet? This module addresses this question by exploring how waves, rays and the various physical techniques are used in geophysics to image the subsurface on scales of meters to kilometres. The basic theory and interpretation methods of seismic, electrical and gravity and magnetic surveys are studied. A wide range of applications is covered including archaeological geophysics, energy resources and geohazards. The fieldcourse provides "hands-on" experience of the various techniques and applications, adding on valuable practical skills. This module is highly valued by employers in industry; guest industrial lecturers will cover the current 'state-of-the-art' applications in real world situations.
Students doing this module are normally expected to have a good mathematical ability, notably in calculus and algebra before taking this module (ENV-1A61 Mathematics for Scientists I, ENV-1A62 Mathematics for Scientists II or equivalent).
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ENV-2A12K | 20 | Semester 2 |
Free Choice Study (20 credits)
Students can select modules worth 20 credits from the course catalogue with the approval of their School.
Year 3
Compulsory Study (120 credits)
Students will select 120 credits from the following module(s).
| Name | Code | Credits | Period |
|---|---|---|---|
|
Work Place Learning for Environmental Scientists
This unit is compulsory for all students on a work placement associated with an ENV Year in Industry Programme. The purpose of the unit is to facilitate and encourage critical thinking and reflection on the work placement experience through a number of "on-placement" assignments through the year.
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CCE-2A2Y | 20 | Year Period |
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Year in Industry
This module represents the year spent on work placement by students registered on an ENV programme incorporating a year in industry. Assessment is purely on a pass/fail basis with respect to completing a work placement, complementary to the degree, of at least nine months duration. A separate compulsory module, CCE-2A2Y, associated with the year in industry, does have additional assignments.
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ENV-2Y5Y | 100 | Year Period |
Year 4
Compulsory Study (40 credits)
Students will select 40 credits from the following module(s).
| Name | Code | Credits | Period |
|---|---|---|---|
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Independent Project
The project is an independent piece of research. With guidance from a supervisor, each student chooses a topic, designs the research and collects, analyses and interprets data. The student is expected to report on progress at various stages: in the selection of a topic, the detailed plan, an interim report and an oral presentation. A final report in the form of a dissertation not exceeding 10,000 words is required, together with a research poster which summarises the main aspects of the work. This module is compulsory for several degree courses in the School of Environmental Sciences and is restricted to Environmental Sciences students.
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ENV-3A91 | 40 | Semester 1 |
Option A Study (60 credits)
Students will select 60 credits from the following module(s).
| Name | Code | Credits | Period |
|---|---|---|---|
|
Catchment Water Resources
This module will adopt an integrated approach to studying surface water and groundwater resources in river basins. Approaches to catchment management will be considered in the context of improving water-dependent terrestrial and aquatic ecosystems. Topics of climate change impacts on water resources in terms of droughts and floods, as well as water quality issues arising from changing land-use patterns will be considered, together with the engineering and socio-economic methods necessary to adapt to future pressures on water resources. Co-taught with ENV-MA60.
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ENV-3A60 | 20 | Semester 2 |
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Earth and Life
This module introduces Earth system science, taking a top-down approach to the Earth as a whole system, and tracing its development since its formation 4.5 billion years ago. The main focus is on the coupled evolution of life and its environment through a series of revolutions. Theoretical approaches are introduced, including Gaia, feedback mechanisms and systems theory, and practical sessions use models to build up conceptual understanding. The subject is inherently inter-disciplinary, including aspects of biology, chemistry and physics, and unifying the study of climate and global biogeochemical cycles. Co-taught with ENV-MA38.
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ENV-3A38 | 20 | Semester 2 |
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Earth System Geochemistry
Examines how the earth system and its geochemical cycling operate on both global and micro scales. Emphasis is on natural cycles, starting with big themes such as crust-hydrosphere-biosphere interaction and its effects on the long term C cycle, including regulation of carbon dioxide. Elements, isotopes, organic molecules (and their isotopic compositions) are used as tracers of processes and events in earth history. Organic matter, its chemistry and its relationship to both the C and S cycles is explored. Dating of geological materials with radiometric methods is introduced. The course explores themes in both deep time (millions of years) and more recent glacial-interglacial cycles (thousands to hundreds of thousands of years).
more...
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ENV-2A30 | 20 | Semester 2 |
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Earthquake and Volcanic Hazards
The aim of the module is to be able to solve geophysical problems (both physical and chemical) in a methodical way. Problems will be described conceptionally, then defined mathematically, then solved numerically. Emphasis on numerical solutions to partial differential equations encountered in geophysical sciences: their stability and accuracy. Case studies from meteorology, oceanography, hydrology and geophysics. Extensive project work involved.
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ENV-3A04 | 20 | Semester 2 |
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Earthquake and Volcanic Hazards With Fieldcourse
Earthquakes and volcanic eruptions have significant environmental and societal impacts. This module focuses on the physical basis and analysis of each hazard, their global range of occurrence and their global impact. The module also addresses approaches towards hazard mitigation and minimising vulnerability, with an emphasis on their practical implication. Scenarios and probabilities occurrence of mega-disasters are also investigated.
A one week field trip in Scotland takes place to introduce you to various aspects of natural hazards and in particular to faulting and earthquake hazards. This module is co-taught with ENV-MA04K
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ENV-3A04K | 20 | Semester 2 |
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Fossil Fuels
Geological, economic and political aspects of fossil fuels (oil, natural gas and coal) are introduced. These are used to discuss environmental concerns arising from the use of fossil fuels, and the potentially profound implications of future fuel scarcity.
This module is suitable for students taking degrees in the School of Environmental Sciences. Some knowledge of Earth Science will be expected. Before taking this module you must take or be taking at least 20 credits or Earth Science or Geophysics modules at honours level.
more...
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ENV-3A33 | 20 | Semester 1 |
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Geodynamics: Earth's Engine
Processes in the Earth's interior have exerted a profound influence on all aspects of the Earth's system through geological time. This module is designed to explore all aspects of those processes from the creation and destruction of tectonic plates to the structure of the Earth's interior and the distribution and dissipation of energy within it. This will include: the theory and mechanisms of plate tectonics, the heat distribution of the Earth's interior, the generation of magma and volcanism; the mechanisms behind earthquakes and distribution of seismic energy. The geological record of this activity, its evolution and impacts on the Earth will also be discussed.
more...
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ENV-2A43 | 20 | Semester 1 |
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Geosciences Fieldcourse
This module is designed to promote a deeper understanding and integration of geoscience subjects: the fieldwork will usually concentrate on aspects of structural geology, regional tectonics, hydrogeology, sedimentology, palaeoclimate and palaeoenvironments, metamorphic geology and volcanology. A key feature of the course is that the location is chosen where there are excellent and substantial exposures of rock formation showing evidence of processes. The field base alternates between the Aegean (Greece) and Western Ireland, and the detailed content will reflect the field sites.
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ENV-3A57K | 20 | Semester 1 |
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Global Environmental Change
An exploration of both the scientific causes of global environmental change and the integrative and complex nature of the societal response to such changes. An examination of attempts to predict future trends in the global environment over the next few centuries. Topics covered include climate change, biodiversity, food/water availability, and air pollution.
Group projects will tackle multi-disciplinary topics within these areas, using research literature and by interaction with researchers currently in these fields.
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ENV-3A20 | 20 | Semester 2 |
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Hydrology and Hydrogeology
An introduction to hydrology and hydrogeology: the basic equations describing fluid movement in groundwater systems will be derived and applied. The main techniques to investigate groundwater flow systems are highlighted. Water circulation within river catchments is discussed by means of the catchment water balance. The physical process
represented by each component of the water balance will be covered as well as the current methods of quantifying these fluxes of water within the catchment . Principles of catchment modelling are outlined.
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ENV-2A65 | 20 | Semester 1 |
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Low Carbon Energy
This module will focus on the decarbonisation of energy supply and demand in a carbon constrained world. It will examine the role of energy efficiency and low carbon energy technologies, such as wind energy, solar energy, hydrogen and fuel cells, taking into consideration important current issues and sectors for application. This knowledge is used to support an analysis of future energy supply and demand that includes management, policy and technical aspects. This version of the module is assessed by coursework and an exam.
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ENV-2A82 | 20 | Semester 2 |
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Low Carbon Energy With Fieldcourse
This module will focus on the decarbonisation of energy supply and demand in a carbon constrained world. It will examine the role of energy efficiency and low carbon energy technologies, such as wind energy, solar energy, hydrogen and fuel cells, taking into consideration important current issues and sectors for application. This knowledge is used to support an analysis of future energy supply and demand that includes management, policy and technical aspects. This version of the module, which includes a one week field course that will take place at Easter, is assessed by coursework and fieldwork projects. There is no exam.
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ENV-2A82K | 20 | Semester 2 |
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Mathematics for Scientists III
This module is the third in the series of four mathematical modules for students across the Faculty of Science. It covers vector calculus (used in the study of vector fields in subjects such as fluid dynamics and electromagnetism), time series and spectral analysis (a highly adaptable and useful mathematical technique in many science fields, including data analysis) and fluid dynamics (which has applications to the circulation of the atmosphere, ocean, interior of the Earth, chemical engineering, and biology). There is a continuing emphasis on applied examples, and the use of numerical computing software (Matlab).
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ENV-2A21 | 20 | Semester 1 |
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Mathematics for Scientists IV
This module is the fourth in a series of four mathematical modules for students across the Faculty of Science. It covers matrix algebra and numerical methods (with applications to many multi-variable problems in science) second order partial differential equations (which govern the behaviour of diffusive, advective and wave-like systems) and solid mechanics (applications in geophysics, glaciology and material science). There is a continuing emphasis on applied examples, and the use of numerical computing software (Matlab) is extended with a dedicated programming component.
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ENV-2A22 | 20 | Semester 2 |
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Palaeoclimatology
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ENV-3A58 | 20 | Semester 2 |
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Sedimentology
Sedimentary rocks contain many of the world's natural resources and cover much of the Earth's surface, record the Earth's history, and contain the fossil record. Sedimentology includes the study of modern sediments such as sand, mud and carbonates and the processes that result in their deposition. Understanding of modern processes is used to interpret ancient sedimentary rocks and sedimentary structures. The module will cover sedimentary fluid dynamics; modern sediments from deserts, rivers, the coast and deep ocean, the differences between siliciclastic and carbonate rocks; biological influence on sedimentary processes and stratigraphy (the study of the physical and temporal relationships between rock layers).
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ENV-2A25 | 20 | Semester 1 |
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Soil Processes and Environmental Issues
This module will combine lectures, practicals, seminars and fieldwork to provide students with an appreciation of the soil environment and the processes that occurs within it. The module will progress through: basic soil components/properties; soil identification and classification; soil as a habitat; soil organisms; soil functions; the agricultural environment; soil-organism-agrochemical interaction; soil contamination; soil and climate change.
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ENV-2A27 | 20 | Semester 1 |
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Solid Earth Geophysics
What lies beneath our feet? This module addresses this question by exploring how waves, rays and the various physical techniques are used in geophysics to image the subsurface on scales of meters to kilometers. The basic theory and interpretation methods of seismic, electrical and gravity and magnetic surveys are studied. A wide range of applications is covered including archaeological geophysics, energy resources and geohazards.
Students doing this module are normally expected to have a good mathematical ability, notably in calculus and algebra before taking this module (ENV-1A61 Mathematics for Scientists I, ENV-1A62 Mathematics for Scientists II or equivalent).
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ENV-2A12 | 20 | Semester 2 |
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Solid Earth Geophysics With Fieldcourse
What lies beneath our feet? This module addresses this question by exploring how waves, rays and the various physical techniques are used in geophysics to image the subsurface on scales of meters to kilometres. The basic theory and interpretation methods of seismic, electrical and gravity and magnetic surveys are studied. A wide range of applications is covered including archaeological geophysics, energy resources and geohazards. The fieldcourse provides "hands-on" experience of the various techniques and applications, adding on valuable practical skills. This module is highly valued by employers in industry; guest industrial lecturers will cover the current 'state-of-the-art' applications in real world situations.
Students doing this module are normally expected to have a good mathematical ability, notably in calculus and algebra before taking this module (ENV-1A61 Mathematics for Scientists I, ENV-1A62 Mathematics for Scientists II or equivalent).
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ENV-2A12K | 20 | Semester 2 |
Free Choice Study (20 credits)
Students can select modules worth 20 credits from the course catalogue with the approval of their School.
Disclaimer
Whilst the University will make every effort to offer the modules listed, changes may sometimes be made arising from the annual monitoring, review and update of modules and regular (five-yearly) review of course programmes. Where this activity leads to significant (but not minor) changes to programmes and their constituent modules, there will normally be prior consultation of students and others. It is also possible that the University may not be able to offer a module for reasons outside of its control, such as the illness of a member of staff or sabbatical leave. Where this is the case, the University will endeavour to inform students.
Fees And Funding
University Fees and Financial Support: UK/EU Students
Further information on fees and funding for 2012 can be found here
International Students
The University offers around £1 million of Scholarships each year to support International students in their studies. Scholarships are normally awarded to students on the basis of academic merit and are usually for the duration of the period of study.
Please click here to access further information about scholarships available to international students.
Further Information
Further information on fees and funding can be found here.
Further information on fees and funding for 2012 can be found here
International Students
The University offers around £1 million of Scholarships each year to support International students in their studies. Scholarships are normally awarded to students on the basis of academic merit and are usually for the duration of the period of study.
Please click here to access further information about scholarships available to international students.
Further Information
Further information on fees and funding can be found here.
How To Apply
Applications need to be made via the Universities Colleges and Admissions Services (UCAS), using the UCAS Apply option.
UCAS Apply is a secure online application system that allows you to apply for full-time Undergraduate courses at universities and colleges in the United Kingdom. It is made up of different sections that you need to complete. Your application does not have to be completed all at once. The system allows you to leave a section partially completed so you can return to it later and add to or edit any information you have entered. Once your application is complete, it must be sent to UCAS so that they can process it and send it to your chosen universities and colleges.
The UCAS code name and number for the University of East Anglia is EANGL E14.
Further Information
If you would like to discuss your individual circumstances with the Admissions Office prior to applying please do contact us:
Undergraduate Admissions Office (Environmental Sciences)
Tel: +44 (0)1603 591515
Email: admissions@uea.ac.uk
Please click here to download the School of Environmental Sciences Prospectus or register your details online via our Online Enquiry Form.
International candidates are also actively encouraged to access the University's International section of our website.
