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Masters Degrees (Applied Meteorology)

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About the course. -Join a world-class Department with internationally leading research. -Study at one of only four universities to be part of. Read more
About the course:
-Join a world-class Department with internationally leading research
-Study at one of only four universities to be part of
the Met Office Academic Partnership
-Work on a research project with one of over 30 industrial partners
-Gain hands-on experience through our field course, atmospheric observatory and professional forecaster training delivered by the Met Office

WHAT WILL YOU STUDY?

Sample modules:
-Atmospheric physics
-Operational forecasting systems and applications
-Hazardous weather
-Measurements and instrumentation
-Experiencing the weather field course

Please note that all modules are subject to change.

WHAT CAREER CAN YOU HAVE?

As one of our graduates, you will be well placed to pursue a scientific career in weather forecasting and meteorological research.
In recent years, our students have been recruited by the Met Office, MeteoGroup, FUGRO Geos, Arup, AIR and RMS. Others pursue careers associated with diverse aspects of environmental measurement, risk management and policy development.

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About the course. -Study at one of only four universities to have a Met Office Academic Partnership. -Join a Department with internationally leading research on weather and climate. Read more
About the course:
-Study at one of only four universities to have a Met Office Academic Partnership
-Join a Department with internationally leading research on weather and climate
-Take management modules at the triple-accredited Henley Business School
-Benefit from significant contact time with world-leading researchers during your dissertation project

WHAT WILL YOU STUDY?

Sample modules:
-Atmospheric physics
-Tropical weather systems
-Managing people and organisations
-Environmental data exploration and visualisation
-Remote sensing

Please note that all modules are subject to change.

WHAT CAREER CAN YOU HAVE?

As one of our graduates, you will be well placed to pursue a scientific career in weather forecasting and meteorological research.
In recent years, our students have been recruited by the Met Office, MeteoGroup, FUGRO Geos, Arup, AIR and RMS. Others pursue careers associated with diverse aspects of environmental measurement, risk management and policy development.

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Weather and climate are integral parts of the Earth system. The monitoring of meteorological variables, together with the knowledge and modelling of underlying processes, are key to understanding our interaction with the natural environment. Read more
Weather and climate are integral parts of the Earth system. The monitoring of meteorological variables, together with the knowledge and modelling of underlying processes, are key to understanding our interaction with the natural environment.

This programme provides comprehensive training in understanding, modelling and prediction of atmospheric processes; as well as the collection, management, supply and application of atmospheric data for the needs of a variety of public and private sectors. The course also demonstrates how these create opportunities or pose problems for the successful operation of natural and human systems. Our aim is that upon graduation you will be able to compete for careers in Meteorology and Climatology.

This well-established programme was developed in response to industry and research institution requirements for applied meteorologists and climatologists. This demand continues, partially due to the growing attention of the society to climate change, its mitigation and adaptation to it.

Skills gained

The programme aims to:

- Provide training in theoretical and applied aspects of atmospheric physics and dynamics, quantitative modelling techniques, -weather forecasting, climate prediction and observation of atmospheric processes
- Equip you with the skills of quantitative and statistical analysis with regards to atmospheric data processing and management
- Enable you to apply theoretical concepts and analytical techniques to the resolution of environmental and socio-economic problems that have an atmospheric origin
- Develop your independent research ability
- Convert participants with non-environmental backgrounds to applied meteorologists and climatologists
- Develop your communication skills using traditional and IT-based media

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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Society urgently needs experts with a multidisciplinary education in atmospheric and Earth System sciences. Climate change and issues of air quality and extreme weather are matters of global concern, but which are inadequately understood from the scientific point of view. Read more
Society urgently needs experts with a multidisciplinary education in atmospheric and Earth System sciences. Climate change and issues of air quality and extreme weather are matters of global concern, but which are inadequately understood from the scientific point of view. Not only must further research be done, but industry and business also need environmental specialists with a strong background in natural sciences. As new regulations and European Union directives are adopted in practice, people with knowledge of recent scientific research are required.

Upon graduating from the Programme you will have competence in:
-Applying experimental, computational and statistical methods to obtain and analyse atmospheric and environmental data.
-Knowledge applicable to solving global challenges such as climate change, air pollution, deforestation and issues related to water resources and eutrophication.
-Making systematic and innovative use of investigation or experimentation to discover new knowledge.
-Reporting results in a clear and logical manner.

The University of Helsinki will introduce annual tuition fees to foreign-language Master’s programmes starting on August 1, 2017 or later. The fee ranges from 13 000-18 000 euros. Citizens of non-EU/EEA countries, who do not have a permanent residence status in the area, are liable to these fees. You can check this FAQ at the Studyinfo website whether or not you are required to pay tuition fees: https://studyinfo.fi/wp2/en/higher-education/higher-education-institutions-will-introduce-tuition-fees-in-autumn-2017/am-i-required-to-pay-tuition-fees/

Programme Contents

The six study lines are as follows:
Aerosol Physics
Aerosol particles are tiny liquid or solid particles floating in the air. Aerosol physics is essential for our understanding of air quality, climate change and production of nanomaterials. Aerosol scientists investigate a large variety of phenomena associated with atmospheric aerosol particles and related gas-to-particle conversion using constantly improving experimental, theoretical, model-based and data analysis methods. As a graduate of this line you will be an expert in the most recent theoretical concepts, measurement techniques and computational methods applied in aerosol research.

Geophysics of the Hydrosphere
Hydrospheric geophysics studies water in all of its forms using physical methods. It includes hydrology, cryology, and physical oceanography. Hydrology includes the study of surface waters such as lakes and rivers, global and local hydrological cycles as well as water resources and geohydrology, the study of groundwater. Cryology focuses on snow and ice phenomena including glacier mass balance and dynamics, sea ice physics, snow cover effects and ground frost. Physical oceanography covers saline water bodies, focusing on describing their dynamics, both large scale circulation and water masses, and local phenomena such as surface waves, upwelling, tides, and ocean acoustics. Scientists study the hydrosphere through field measurements, large and small scale modelling, and formulating mathematical descriptions of the processes.

Meteorology
Meteorology is the physics of the atmosphere. Its best-known application is weather forecasting, but meteorological knowledge is also essential for understanding, predicting and mitigating climate change. Meteorologists study atmospheric phenomena across a wide range of space and time scales using theory, model simulations and observations. The field of meteorology is a forerunner in computing: the development of chaos theory, for example, was triggered by the unexpected behaviour of a meteorological computer model. Meteorology in ATM-MP is further divided into dynamic meteorology and biometeorology. Dynamic meteorology is about large-scale atmospheric dynamics, modelling and observation techniques, whereas biometeorology focuses on interactions between the atmosphere and the underlying surface by combining observations and modelling to study the flows of greenhouse gases and energy with links to biogeochemical cycles, for example. As a graduate of the meteorology line, you will be an expert in atmospheric phenomena who can produce valuable new information and share your knowledge.

Biogeochemical Cycles
Biogeochemistry studies the processes involved in cycling of elements in terrestrial and aquatic ecosystems by integrating physics, meteorology, geophysics, chemistry, geology and biology. Besides natural ecosystems, it also studies systems altered by human activity such as forests under different management regimes, drained peatlands, lakes loaded by excess nutrients and urban environments. The most important elements and substances studied are carbon, nitrogen, sulphur, water and phosphorus, which are vital for ecosystem functioning and processes such as photosynthesis. Biogeochemistry often focuses on the interphases of scientific disciplines and by doing so, it also combines different research methods. It treats ecosystems as open entities which are closely connected to the atmosphere and lithosphere. You will thus get versatile training in environmental issues and research techniques. As a graduate of this line you will be an expert in the functioning of ecosystems and the interactions between ecosystems and the atmosphere/hydrosphere/lithosphere in the context of global change. You will have knowledge applicable for solving global challenges such as climate change, air pollution, deforestation and issues related to water resources and eutrophication.

Remote Sensing
Remote sensing allows the collection of information about the atmosphere, oceans and land surfaces. Various techniques are applied for monitoring the state and dynamics of the Earth system from the ground, aircraft or satellites. While Lidar and radar scan from the surface or mounted on aircraft, instruments on polar orbiting or geostationary satellites permit measurements worldwide. In atmospheric sciences remote sensing has found numerous applications such as observations of greenhouse and other trace gases, aerosols, water vapour, clouds and precipitation, as well as surface observations, for example of vegetation, fire activity, snow cover, sea ice and oceanic parameters such as phytoplankton. Synergistic satellite data analysis enables the study of important processes and feedback in the climate system. Remote sensing advances climate research, weather forecasting, air quality studies, aviation safety and the renewable energy industry. As a graduate of the remote sensing line you will have broad expertise in the operational principles of remote sensing instruments as well as methods of data collection, analysis and interpretation.

Atmospheric Chemistry and Analysis
Atmospheric chemistry studies the composition and reactions of the molecules that make up the atmosphere, including atmospheric trace constituents and their role in chemical, geological and biological processes, including human influence. The low concentrations and high reactivity of these trace molecules place stringent requirements on the measurement and modelling methods used to study them. Analytical chemistry is the science of obtaining, processing, and communicating information about the composition and structure of matter and plays an essential role in the development of science. Environmental analysis consists of the most recent procedures for sampling, sample preparation and sample analysis and learning how to choose the best analytical methods for different environmental samples. Physical atmospheric chemistry studies focus on the reaction types and reaction mechanisms occurring in the atmosphere, with emphasis on reaction kinetics, thermodynamics and modelling methods. As a graduate of this line you will have understanding of the chemical processes of the atmosphere and the latest environmental analytical methods, so you will have vital skills for environmental research.

Programme Structure

The basic degree in the Programme is the Master of Science (MSc). The scope of the degree is 120 credits (ECTS). As a prerequisite you will need to have a relevant Bachelor’s degree. The possible major subjects are Physics, Meteorology, Geophysics, Chemistry, and Forest Ecology. The programme is designed to be completed in two years. Studies in ATM-MP consist of various courses and project work: lecture courses, seminars, laboratory work and intensive courses.

Your first year of studies will consist mainly of lecture courses. During the second year, you must also participate in the seminar course and give a presentation yourself. There is also a project course, which may contain laboratory work, data analysis, or theoretical or model studies. You will have to prepare a short, written report of the project. There are also several summer and winter schools as well as field courses for students in the Programme. Many of the courses take place at the Hyytiälä Forestry Field Station in Southern Finland. The intensive courses typically last 5–12 days and include a concise daily programme with lectures, exercises and group work.

Career Prospects

There is a global need for experts with multidisciplinary education in atmospheric and environmental issues. Governmental environmental agencies need people who are able to interpret new scientific results as a basis for future legislation. Industry, transportation and businesses need to be able to adapt to new regulations.

As a Master of Science graduating from the Programme you will have a strong background of working with environmental issues. You will have the ability to find innovative solutions to complex problems in the field of environmental sciences, climate change and weather forecasting. Graduates of the Programme have found employment in Meteorological Institutes and Environmental Administration in Finland and other countries, companies manufacturing instrumentation for atmospheric and environmental measurements and analysis, and consultancy companies. The Master's degree in ATM-MP also gives you a good background if you intend to proceed to doctoral level studies.

Internationalization

The Programme offers an international study environment with more than 30% of the students and teaching staff coming from abroad.

The ATM-MP is part of a Nordic Nordplus network in Atmosphere-Biosphere Studies, which gives you good opportunities to take courses currently in fourteen Nordic and Baltic universities. There are also several Erasmus agreements with European universities. The PanEurasian Experiment (PEEX) project provides you with opportunities to carry out part of your studies especially in China and Russia.

Research Focus

All the units teaching in the Programme belong to the National Centre of Excellence (FCoE) in Atmospheric Science – From Molecular and Biological processes to the Global Climate (ATM), which is a multidisciplinary team of the Departments of Physics, Forest Sciences and Chemistry at the University of Helsinki, the Department of Applied Physics at the University of Eastern Finland (Kuopio) and the Finnish Meteorological Institute.

The main objective of FCoE ATM is to quantify the feedbacks between the atmosphere and biosphere in a changing climate. The main focus of the research is on investigating the following topics:
1. Understanding the climatic feedbacks and forcing mechanisms related to aerosols, clouds, precipitation and biogeochemical cycles.
2. Developing, refining and utilising the newest measurement and modelling techniques, from quantum chemistry to observations and models of global earth systems.
3. Creating a comprehensive understanding of the role of atmospheric clusters and aerosol particles in regional and global biogeochemical cycles of water, carbon, sulphur, nitrogen and their linkages to atmospheric chemistry.
4. Integrating the results in the context of understanding regional and global Earth systems.

In addition to the research focus of FCoE, current research in hydrospheric geophysics at Helsinki University has an emphasis on cryology, with a focus on the effect of aerosols on Indian glaciers, the impact of climate change on the Arctic environment, the dynamics of the Austfonna ice cap in Svalbard, and the winter season in the coastal zone of the Baltic Sea.

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Our key research areas are. air pollution and atmospheric chemistry; applied meteorology and climatology; environmental nanoscience and persistent organic pollutants. Read more
Our key research areas are: air pollution and atmospheric chemistry; applied meteorology and climatology; environmental nanoscience and persistent organic pollutants.

Our research attracts extensive funding from many sources. The collaborative nature of much of our work, together with the mix of pure, strategic and applied research, provides a dynamic and internationally recognised research environment.

The Division of Environmental Health and Risk Management (DEHRM) is based in the well-equipped, purpose-built facilities of the University's Public Health Building. Our research attracts extensive funding from many sources, including the:

- Department of Transport
- Department for Environment, Food and Rural Affairs
- Environment Agency
- Department of Health
- Food Standards Agency
- National Environment Research Council (NERC)
- Engineering and Physical Sciences Research Council (EPSRC)
- Biotechnology and Biological Sciences Research Council (BBSRC)
- Leverhulme Trust
- European programmes

The collaborative nature of much of this work, together with the mix of pure, strategic and applied research, often involving interdisciplinary teams spanning physical, biological, chemical, medical and social sciences, provides a dynamic and internationally recognised research environment.

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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This qualification is available for industry professionals who have a postgraduate award already but wish to upgrade this to a full Masters. Read more
This qualification is available for industry professionals who have a postgraduate award already but wish to upgrade this to a full Masters. This can be achieved simply by the completion of:

A short period of distance learning study in Applied Research Methods
A workplace focussed research project in an appropriate area

By studying your distance e-learning degree with us, when you graduate you will receive a full Master’s award from Plymouth University a world leader in Marine and Maritime related subjects. This is exactly the same as if you had attended a full time on-campus degree course.

We have a number of different start dates throughout the year to suit individual circumstances.

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From geometry, analysis, partial differential equations and mathematical physics to fluid dynamics, meteorology and modelling in life sciences – our Masters in Mathematics offers you an extraordinary range of research opportunities that lie at the heart of tackling the key scientific questions of our age. Read more
From geometry, analysis, partial differential equations and mathematical physics to fluid dynamics, meteorology and modelling in life sciences – our Masters in Mathematics offers you an extraordinary range of research opportunities that lie at the heart of tackling the key scientific questions of our age.

PROGRAMME OVERVIEW

This programme reflects and benefits from the strong research activities of the Department of Mathematics.

The taught modules and dissertation topics are closely aligned with the interests of the Department’s four research groups:
-Mathematics of Life and Social Sciences
-Dynamical Systems and Partial Differential Equations
-Fields, Strings and Geometry
-Fluids, Meteorology and Symmetry

During the first two semesters you will take a range of taught modules from an extensive list of options, followed by an extended research project conducted over the summer under the supervision of a member of the department, culminating in the writing of a dissertation.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year. It consists of eight taught modules and a dissertation. 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.
-Maths of Weather
-Graphs and Networks
-Manifolds and Topology
-Quantum Mechanics
-Numerical Solutions of PDEs
-Functional Analysis and Partial Differential Equations
-Nonlinear Wave Equations
-Representation Theory
-Advanced Techniques in Mathematics
-Lie Algebras
-Nonlinear Patterns
-Geometric Mechanics
-Relativity
-Ecological and Epidemiological Modelling
-Mathematical Biology and Physiology
-Topology
-Non-Commutative Algebra
-Dissertation

CAREERS

Mathematics is not only central to science, technology and finance-related fields, but the logical insight, analytical skills and intellectual discipline gained from a mathematical education are highly sought after in a broad range of other areas such as law, business and management.

There is also a strong demand for new mathematics teachers to meet the ongoing shortage in schools.

As well as being designed to meet the needs of future employers, our MSc programme also provides a solid foundation from which to pursue further research in mathematics or one of the many areas to which mathematical ideas and techniques are applied.

EDUCATIONAL AIMS OF THE PROGRAMME

-To provide graduates with a strong background in advanced mathematical theory and its applications to the solution of real problems
-To develop students understanding of core areas in advanced mathematics including standard tools for the solution of real life applied mathematical problems
-To develop the skill of formulating a mathematical problem from a purely verbal description
-To develop the skill of writing a sophisticated mathematical report and, additionally, in presenting the results in the form of an oral presentation
-To lay a foundation for carrying out mathematical research leading to a research degree and/or a career as a professional mathematician in an academic or non-academic setting

PROGRAMME LEARNING OUTCOMES

Knowledge and understanding
-Knowledge of the core theory and methods of advanced pure and applied mathematics and how to apply that theory to real life problems
-An in-depth study of a specific problem arising in a research context

Intellectual / cognitive skills
-Ability to demonstrate knowledge of key techniques in advanced mathematics and to apply those techniques in problem solving
-Ability to formulate a mathematical description of a problem that may be described only verbally
-An understanding of possible shortcomings of mathematical descriptions of reality
-An ability to use software such as MATLAB and IT facilities more generally including research databases such as MathSciNet and Web of Knowledge

Professional practical skills
-Fluency in advanced mathematical theory
-The ability to interpret the results of the application of that theory
-An awareness of any weaknesses in the assumptions being made and of possible shortcomings with model predictions
-The skill of writing an extended and sophisticated mathematical report and of verbally summarising its content to specialist and/or non-specialist audiences

Key / transferable skills
-Ability to reason logically and creatively
-Effective oral presentation skills
-Written report writing skills
-Skills in independent learning
-Time management
-Use of information and technology

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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Ocean acidification, energy resources, coastal erosion and flooding are just some of the issues that make ocean science such an important component when addressing the world’s most pressing environmental, energy and construction challenges. Read more
Ocean acidification, energy resources, coastal erosion and flooding are just some of the issues that make ocean science such an important component when addressing the world’s most pressing environmental, energy and construction challenges. This course allows you to tailor your study towards employment in a specific sector including oceanographic and environmental research and consultancy, marine renewable energy, marine conservation management, offshore exploration and hydrographic surveying.

You will equip yourself for a career in hydrographic surveying by choosing the hydrography pathway in the final year - study the exploration and sustainable management of marine resources, construction and environmental support. You’ll conduct a research or consultancy-type project closely linked to one of our marine science research groups or industrial partners, providing an experience of working with established marine scientists and contributing to current work in a wider context.

Key features

-Gain a sound knowledge base across all areas of ocean science with options to develop specialist skills in marine conservation, oceanography or hydrography.
-Specialise in subjects that most interest you including coastal dynamics, seafloor mapping, physical oceanography, meteorology, remote sensing, offshore exploration, biological oceanography, marine pollution and conservation.
-Equip yourself for a career in hydrographic surveying by choosing the hydrography pathway in the final year (with potential high-level professional FIG/IHO/ICA accreditation) - study the exploration and sustainable management of marine resources, construction and environmental support.
-Conduct a research or consultancy-type project closely linked to one of our marine science research groups or industrial partners, providing an experience of working with established marine scientists and contributing to current work in a wider context.
-Develop your range of practical skills with our own fully-equipped fleet of boats, a new £4.65 million Marine Station used as a base for fieldwork afloat, industry standard oceanographic and surveying equipment and a type-approved ship simulator.
-Option to take the industry-recognised professional diving qualification (HSE Professional SCUBA) alongside your degree, and an optional scientific diving module to provide training and qualification for diving-based research projects and employment (limited places and additional costs apply).
-Experience an overseas field course that's aimed at integrating ocean science knowledge and understanding across the different sub-disciplines.

Course details

Year 1
Your first year, shared across the Marine Science Undergraduate Scheme, introduces the full range of topics within the degree and develops your underpinning scientific knowledge and practical skills. You’ll develop your understanding of the Earth’s oceans and the key physical, chemical, biological processes that occur in these systems. You’ll build practical skills and enhance your ability to analyse, present and interpret scientific data through field-based activities.

Core modules
-OS101 Introduction to Ocean Science
-OS103 Biology and Hydrography of the Ocean
-OS105 Mapping the Marine Environment
-OS102 Physical and Chemical Processes of the Ocean
-OS104 Measuring the Marine Environment

Optional modules
-GEES1002PP Climate Change and Energy
-GEES1003PP Sustainable Futures
-GOV1000PP One Planet? Society and Sustainability
-ENGL405PP Making Waves: Representing the Sea, Then and Now
-GEES1001PP Natural Hazards
-OS106PP Our Ocean Planet
-OS107PP Space Exploration

Year 2
In your second year, the emphasis will be on understanding core aspects of ocean science, including topics in ocean exploration, oceanography and marine conservation, and enhancing your practical and research skills. You’ll participate in a field work module based at our Marine Station, learning how to use industry standard instrumentation and software for measuring a variety of parameters in the coastal zone and you’ll develop a proposal for your final year project. There's also opportunity to apply scientific diving skills gained alongside the degree for suitably qualified individuals.

Core modules
-OS201 Global Ocean Processes
-OS202 Monitoring the Marine Environment
-OS206 Researching the Marine Environment

Optional modules
-OS208 Meteorology
-OS209 Marine Remote Sensing
-OS207 Scientific Diving
-OS203 Seafloor Mapping
-OS204 Waves, Tides and Coastal Dynamics
-OS205 Managing Human Impacts in the Marine Environment

Year 3
You’ll focus on topics with special relevance to your future plans including options across the specialisms offered through the related BSc Marine Science courses. A residential field course allows you to develop a group-based in-situ investigative study. A large part of the year is spent completing a research project, carrying out an in-depth investigation under the guidance of a member of academic staff.

Optional modules
-BPIE338 Ocean Science Placement

Year 4
Pathway options in the final year provide both an opportunity for you to pursue your choice of topic in greater depth and an opportunity to increase the breadth of your study through modules from the applied contemporary offerings of our Marine Science MSc programmes: Applied Marine Science, Marine Renewable Energy and Hydrography. You’ll conduct a research or consultancy-type project closely linked to one of our internationally-leading marine science research groups or industrial partners, providing an experience of working with established marine scientists.

Optional modules
-MAR517 Coastal Erosion and Protection
-MATH523 Modelling Coastal Processes
-MAR520 Hydrography
-MAR522 Survey Project Management
-MAR515 Management of Coastal Environments
-MAR518 Remote Sensing and GIS
-MAR521 Acoustic and Oceanographic Surveying
-MAR507 Economics of the Marine Environment
-MAR523 Digital Mapping
-MAR516 Contemporary Issues in Marine Science
-MAR519 Modelling Marine Processes

Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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The Master of Physical Land Resources has two specializations. Soil Science (organized by the Universiteit Gent) and Land Resources Engineering (organized by the Vrije Universiteit Brussel). Read more
The Master of Physical Land Resources has two specializations: Soil Science (organized by the Universiteit Gent) and Land Resources Engineering (organized by the Vrije Universiteit Brussel). During your training you acquire a profound knowledge of pedology, soil physics and chemistry, soil mineralogy, soil prospection and classification, statistics and computer science, climatology and meteorology. Depending on the chosen modules you can specialize in the fields of: land evaluation, soil fertility, soil-water management, etc.

This master offers

 Knowledge and skills which enable you to start and build a successfull career as scientist specialised in either Soil Science or Land Resources Engineering in a professional way.
 The ability to formulate hypotheses and design experiments to test them, report results and findings to both your peers and to a general public.
 You to learn to think analytically, synthetically, creatively and in a problem solving way
 The ability to work both autonomously and in a team.
 The ability to apply knowledge as required for the overall development policy of your country
 The skills to function in fundamental as well as in applied research at universities, research institutions and (other) government or private institutions and companies.

International Course Programme

This programme is one of the International Course Programmes supported by the Flemish Interuniversity Council - University Development Cooperation (VLIR-UOS). A limited number of scholarships is available for students coming from specific developing countries.

Structure

The Master of Science degree programme in Physical Land Resources is a two year, full time course.

The first year provides a fundamental basis in physical land resources, with a main subject in either Soil Science or Land Resources Engineering. The second year offers specialised courses in one of the two main subjects. The students have to prepare a dissertation. Successful completion of the programme leads to the award of an Master of Science degree in Physical Land Resources.
The course curriculum of the first year, and of the main subject in soil science of the second year is organised at the Ghent University, whereas all courses of the main subject in Land Resources Engineering of the second year are organised at the "Vrije Universiteit Brussel". Students in Land Resources Engineering have to reside in Brussels during the second year.

The academic year starts the last week of September. Students are expected to arrive in Gent ten days before the start of the programme. There are two examination periods, in January and in June respectively. For students who fail, there is a re-examination session in August-September.

Curriculum

For the specialization Land Resources Engineering the curriculum is available on http://www.vub.ac.be/en/study/physical-land-resources/programme

For the specialization Soil Science the curriculum is available on http://www.plr.ugent.be/main.htm#course

Student profile

You want to know what (a) soil is?
You want to know which factors and properties determine the soil suitability to be used for both agricultural and non-agricultural purposes and how this is established?
You want to know how the soil can be improved to suit specific applications?
You want to know how to address problems of degradation and desertification?
You want to know how to manage the land and how to protect it?
You want to know what the impact of the soil factor is in the dynamics of natural ecosystems and how this knowledge can be applied in the area of nature conservation?
You want to know what the soil teaches us about current environmental issues?
You want to know how soil and water management can be improved in the frame of sustainable agriculture?
You want to know how we can manage our scarce water supplies?

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The course combines taught modules with an independent major research project. Read more
The course combines taught modules with an independent major research project. The taught modules introduce the nature of our atmosphere, its composition and meteorology, air pollutant emissions, air pollution chemistry and climate change / carbon management, together with the practical measures used to limit emissions from sources ranging from power stations to vehicles and the legislative and policy framework used by national and local authorities to enforce air quality objectives. The research project allows students to undertake an in-depth investigation of a particular aspect of air pollution of interest to them, and further their level of understanding.

This programme is run by the Division of Environmental Health and Risk Management.

About the Division of Environmental Health and Risk Management
The Division is based in the well-equipped, purpose-built facilities of the University's Public Health Building. Research attracts extensive funding from many sources, including the Department of Transport; the Department for Environment, Food and Rural Affairs (DEFRA); the Environment Agency; the Department of Health; the Natural Environment Research Council (NERC) and European Union. The collaborative nature of much of this work, together with the mix of pure, strategic and applied research, often involving interdisciplinary teams spanning physical, biological, chemical, medical and social sciences, provides a dynamic and internationally recognised research environment.

The Division is led by Professor Roy Harrison who is a member of the U.K. government’s Air Quality Expert Group, Committee on the Medical Effects of Air Pollutants, and Committee on Toxicity. He often gives media interviews on subjects including the Volkswagen emissions scandal.

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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If you are interested in the possibility of a research degree (PhD or Research Masters) in the School of Mathematical Sciences, we encourage you to become familiar with the range of research activity and expertise in the School. Read more
If you are interested in the possibility of a research degree (PhD or Research Masters) in the School of Mathematical Sciences, we encourage you to become familiar with the range of research activity and expertise in the School. In particular, we would encourage you to approach or contact members of the academic staff whose research area may be of particular interest.

The research of the School covers a wide range of areas including:

Analysis (Infinite-dimensional analysis, Functional Analysis, Potential Theory)
Algebra (Matrix Theory, K-theory, Quadratic and Hermitian Forms)
Discrete Mathematics (Coding, Cryptography, Number Theory)
Applied Mathematics (Fluid Dynamics, Computational Science, Meteorology, Biomathematics, Information Theory)
Theoretical Physics (Astrophysics, General Relativity, Quantum Gravity, Statistical Mechanics, Quantum Field Theory)
Statistics (Bayesian Statistics, Pharmaceutical, Medical and Educational Statistics, Environmental and ecological modelling, Epidemiology, Econometrics).

Please see our School Website for more details:
http://www.ucd.ie/mathstat

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This MSc provides a broad introduction to geohazards, together with advanced courses in seismology, volcanology, hydrogeological hazards and meteorology. Read more
This MSc provides a broad introduction to geohazards, together with advanced courses in seismology, volcanology, hydrogeological hazards and meteorology. A key goal is to provide an essential grounding in quantitative modelling that can be widely applied to several fields, from pure research to the commercial sector.

Degree information

The programme provides an introduction to the spectrum and impact of geophysical hazards, and a focus on quantitative models for hazard forecasting and assessment. Selected case studies illustrate how these models are essential for improving decision making during emergencies, for raising the awareness of vulnerable populations, and for evaluating and implementing mitigation strategies.

Students undertake modules to the value of 180 credits. The programme consists of six core modules (120 credits) and a research dissertation (60 credits). There are no optional modules for this programme.

Core modules
-Geological and Geotechnical Hazards
-Meteorological Hazards
-Research Methods
-Earthquake Seismology and Earthquake Hazard
-Physical Volcanology and Volcanic Hazard
-Meteorological, Climate and Hydrogeological Hazard

Dissertation/report
All students undertake an independent research project in geophysical hazards, which culminates in a dissertation of 15,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, directed reading and practical exercises. There are excellent opportunities for field investigations in the UK and abroad. Assessment is through unseen written examinations, practical problem-solving exercises and essays. The independent research report is assessed through the dissertation and an oral presentation.

Careers

The MSc programme in Geophysical Hazards will provide essential training for careers in hazard assessment and risk evaluation, including: industry, from engineering to insurance; academic research; civil protection agencies and government organisations; and NGOs related to aid and development. About one-third of previous graduates have continued with further research (PhDs), one-third have entered the insurance industry, and one-third have pursued careers in other fields.

Top career destinations for this degree:
-Catastrophy risk analyst, Aon Benfield
-Geographic Risk Analyst, QBE
-Senior Catastrophy Halard, Hardy Underwriting
-Environmental Risk Advisor, HelpAge International
-Policy Adviser, Department for the Environment, Food and Rural Affairs

Employability
On graduation from this programme about one third of students have followed careers in global insurance and re-insurance and another third have pursued research with a PhD in hazard-related studies. The remaining third have developed careers in a wide range of sectors, from non-governmental organisations, through teaching, to the fields of emergency planning and environmental management.

Why study this degree at UCL?

UCL Earth Sciences is engaged in world-class research into the processes at work on and within the Earth and planets.

Graduate students benefit from our lively and welcoming environment and world-class facilities. The department hosts UCL Hazard Centre, Europe's leading multidisciplinary hazard research centre, and engages in extensive collaborative work with the Royal Institution and the Natural History Museum.

This MSc aims to include a short field trip to locations that illustrate the impact of natural hazards. Previous trips have included the Neapolitan volcanic district, the Italian Alps and the Po Delta, and the Cádiz region in south-western Spain.

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The question is no longer if our climate will change, but how will it change and how will we adapt to these changes? Adaption and mitigation to global warming, the greenhouse effect and climate change all form the basis of the Master Climate Studies programme at Wageningen University. Read more

MSc Climate Studies

The question is no longer if our climate will change, but how will it change and how will we adapt to these changes? Adaption and mitigation to global warming, the greenhouse effect and climate change all form the basis of the Master Climate Studies programme at Wageningen University.

Students will gain a broad overview of climate change during this two-year programme. As changes and challenges crystallise, the demand for scientists able to understand and investigate them will rise. This master programme is specifically targeted at students who wish to focus on the scientific insights into climate change and on the social and economic implications of climate change in the broadest sense.

Programme summary

The MSc Climate Studies programme focuses on an improved understanding of climate change across the earth and its impact on ecosystems and society. The debate in science no longer revolves around whether our climate will change, but how it will change, how we can cope with the impact (adaptation), and how we can limit climate change in the long term (mitigation). These issues are important for the entire world and fuel a range of new challenges to natural and social sciences. Society needs answers to questions such as: How will climate change affect ecosystems and how will these in turn affect the climate system? What will the effect be on the availability of water and food? How will climate change issues set national and international political agendas? How will citizens, consumers, companies and other social actors respond to climate change? What will the economic costs be of the impact and measures related to climate change, and how will these costs be distributed globally? Will new social and economic opportunities emerge in the process of adaptation?

As these changes and challenges become ever more apparent, the demand for scientists who are able to understand and investigate them will rise. Wageningen University has therefore bundled expertise from several disciplines in a Master study programme specifically designed for students who wish to focus on the scientific insights into climate change and its implications for nature and society. Climate Studies does not only cover the most important geophysical and biogeochemical processes involved in climate change (the mechanisms), but it also covers the socio-economic aspects of causes and effects; as well as adaptation and mitigation as the main categories of societal response.

Specialisations

Climate Studies gives you a broad overview of climate-change related issues. You can specialise in a topic of your choice during your thesis research. We offer a wide range of thesis tracks:
• Meteorology
• Air Quality and Atmospheric Chemistry
• Hydrology and Quantitative Water Management
• Crop and Weed Ecology
• Nature Conservation and Plant Ecology
• Soil Biology and Biological Soil Quality
• Earth System Science
• Environmental System Analysis
• Integrated Water Management
• Environmental Economics and Natural Resources
• Environmental Policy

You future career

Graduates from this programme are well-equipped with the knowledge and skills to continue their academic training as a PhD student or to start a career as a scientific professional at universities, research institutes, and environmental and governmental organisations. Applied climate change researchers and experts are sought after by banks, insurance companies, construction, power companies and government.

Student Lennart Pompe.
"Climate Studies and the specialisation Integrated Water Management are the perfect combination for me where science and society come together to tackle the challenges the water sector faces. I took the opportunity to enrich my master with the label of the Climate-KIC, a European knowledge and innovation community. I joined several Climate-KIC activities, among others, the inspiring 5-week summer school ‘the Journey’ aimed at developing your own business plan. My thesis focussed on climate change and human development in the Bengal delta and the related salinisation issues. I am excited to enter the Dutch-leading water sector."

Related programmes:
MSc Environmental Sciences
MSc Earth and Environment
MSc Management, Economics and Consumer Studies

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The School of Earth Sciences has strong international links and the presence of researchers from all over the world makes for an exciting and stimulating environment. Read more
The School of Earth Sciences has strong international links and the presence of researchers from all over the world makes for an exciting and stimulating environment. Research involves the full breadth of the earth sciences and has benefited from major investment in new laboratories and equipment in the past few years. Important initiatives include experimental and theoretical studies of physical, chemical and biological processes of the Earth.

Please note: If you are applying for this programme, you need to select Geology as the programme choice when completing your online application form.

Research groups

The research programme at Bristol is characterised by an expanding range of exciting subject areas. Research in the School of Earth Sciences encourages interdisciplinary collaboration between its five research groups, which in turn nurtures revolutionary research.

Geochemistry
The Geochemistry group uses fundamental chemical techniques to understand natural processes on a range of temporal and spatial scales. This can be from single atoms on mineral surfaces and the environmental geochemistry of the modern Earth to the large-scale chemical structure of planets and the birth of the solar system. The group has considerable expertise in isotopic measurements, spectroscopy and first-principles calculations.

Geophysics
Geophysics uses physical properties of the solid Earth to measure structure and processes on scales from the single crystal to the entire planet. Members of the Bristol Geophysics group use gravity, seismic and satellite data to image the Earth in a variety of different contexts. These include the Earth's core, mantle and tectonic processes, volcanoes, oil and gas reservoirs and mines.

Palaeobiology
The Palaeobiology group uses the fossil record to study the history of life. Research focuses on major diversifications, mass extinctions, dating the tree of life, phylogenomics and molecular palaeobiology, morphological innovation, biomechanics, and links between evolution and development; the organisms of interest range from foraminifera to dinosaurs.

Petrology
The Petrology group uses a combination of high-pressure and high-temperature experiments, petrology, geochemistry and mineral physics to attack a wide range of problems in the solid Earth - from the core to the surface.

Volcanology
The Volcanology group at Bristol aims to understand the physical processes underlying volcanic phenomena and develop methods of hazard and risk assessment that can be applied to volcanoes worldwide.

Recent case studies and collaborators include the Met Office, Montserrat Volcano Observatory, Eyjafjallajökull, Iceland and INGEOMINAS in Columbia.

Research centres

The School of Earth Sciences is involved in a number of collaborative research groups on an international level. Inter-faculty research centres such as the Biogeochemistry Research Centre and the Cabot Institute involve collaboration across several departments and faculties.

Centre for Environmental and Geophysical Flows
This interdisciplinary research centre brings together expertise from the Schools of Earth Sciences, Geographical Sciences, Mechanical Engineering and Mathematics. This creates diverse research activities and interests, from traffic flow to explosive volcanic flows, meteorology to oceanography.

Biogeochemistry Research Centre
The Biogeochemistry Research Centre involves staff from the Schools of Earth Sciences, Geographical Sciences and Chemistry. The research aims to develop our understanding of the biogeochemistry of modern-day and ancient environments and the way that it is affected by natural processes and the actions of mankind.

Bristol Isotope Group
The Bristol Isotope Group is a world-class research facility for isotope measurements directed at understanding natural processes, from the formation of the solar system, the origin of Earth - its deep structure and atmosphere, through to the evolution of that atmosphere and contemporary climate change.

Interface Analysis Centre
The Interface Analysis Centre specialises in the application of a wide range of analytical techniques and is used by the Schools of Chemistry, Earth Sciences and Physics.

The Cabot Institute
The Cabot Institute carries out fundamental and responsive research on risks and uncertainty in a changing environment. Interests include climate change, natural hazards, food and energy security, resilience and governance, and human impacts on the environment.

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The MSc program in Integrated climate system Sciences (ICSS) offers courses in all fields of climate system sciences. At present, the program allows the specialization in one of following three tracks. Read more

Why study Integrated Climate System Sciences in Hamburg?

The MSc program in Integrated climate system Sciences (ICSS) offers courses in all fields of climate system sciences. At present, the program allows the specialization in one of following three tracks:

• physics of the climate system;
• biogeochemistry of the climate system;
• climate related economics and social sciences.

All courses are held in English. Class size is limited to 20 students. Our research oriented study program has been accredited by ASIIN in 2010.

Six good reasons to apply at SICSS

• Be part of the Cluster of Excellence CliSAP at KlimaCampus Hamburg and study all aspects of the climate system.
• Benefit from a structured study program.
• Take the advantage of having the choice to give your study program either an "in-depth" or an "interdisciplinary" focus.
• Have access to an exciting environment conducive to science and education, and use the extraordinary resources at the KlimaCampus.
• Make use of our support program and prepare yourself for your chosen career field.
• Feel at home in an international atmosphere and enjoy living in Hamburg.

Curriculum for Integrated Climate System Sciences

Your curriculum for the two-year ICSS master`s program is subdivided into four semesters with mandatory courses, elective courses for specialization and the preparation of your master’s thesis. The curriculum starts from a firm basis in climate physics (and in particular climate modeling) but adds the equally important aspects of global and regional biogeochemical cycling and puts all this into a broader context, including economic as well as societal implications. SICSS courses comprise a wide range of atmospheric, hydrospheric, cryospheric, pedospheric and biospheric sciences, as well as introductions and specializations into economics, social geography, media sciences and conflict research to shed light on climate system science from different perspectives.

You will start your studies with mandatory courses in research skills, as well as natural and social science foundation courses in climate system sciences.
The main goal of the second semester is to broaden your knowledge across the climate science disciplines. You will choose courses from at least two of the three possible program tracks.
The third semester features the Climate Study Project, which includes an integrated seminar and a scientific writing course to prepare you for the master thesis. You will find your personal supervisor and work closely together with a CliSAP research group.
The fourth and final semester is reserved for the master’s thesis.

Please find more information on the curriculum on our website: http://www.clisap.de/grad-school/msc-program/your-curriculum/.

Your future career

Become a climate expert! Depending on your personal interests, you will be well prepared and equipped for an international career in both applied and fundamental research, as well as for positions in government or business.

After graduation our students successfully work as:
• researchers in the fields of natural, social and economic sciences, while maintaining a strong focus on the climate system and its past, present and future changes.
• consultants in the public service and private business sectors, and in non-governmental organizations.
• experts in national and international organizations working in the field of development cooperation.

Start your studies

The SICSS Office is your main contact for information and will support you with a comprehensive and practical “welcome service” by assisting with enrollment, visa application, health insurance, registration with local authorities, opening of a bank account and support in finding accommodations.

As an incoming master’s student you will receive support from a personal buddy. This personal buddy is one of the MSc ICSS students and will accompany you from the start of your travel and study planning to your arrival and during your first days in Hamburg. SICSS also offers an Orientation Week for all new first semester students, including information on your study program and excursions to climate-related institutions and sites.

Tuition fees and other costs

There are no tuition fees at the Universität Hamburg and foreign students who are enrolled do not pay tuition. However, there are other fees. The semester fee at the Universität Hamburg is currently 305 Euros. Upon receipt of the semester fee the university will issue your semester documents, including a pass for the public transport system in Hamburg. Upon your request, the SICSS Office will provide information about living expenses in Hamburg and Germany.

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