Undergraduate study - 2021 entry

Degree Programme Specification 2020/2021

MEarthPhys Geophysics and Meteorology

To give you an idea of what to expect from this programme, we publish the latest available information. This information is created when new programmes are established and is only updated periodically as programmes are formally reviewed. It is therefore only accurate on the date of last revision.
Awarding institution: University of Edinburgh
Teaching institution: University of Edinburgh
Programme accredited by: The Royal Meteorological Society
Final award: MEarthPhys
Programme title: MEarthPhys Geophysics and Meteorology
UCAS code: K7T8
Relevant QAA subject benchmarking group(s): Earth Sciences, Environmental Sciences and Environmental Studies
Postholder with overall responsibility for QA:

Prof Simon Tett, Academic

Susan Orr, Administration

Date of production/revision: 4 March 2020

External summary

Geophysics is the application of physics to the understanding of the Earth, from its centre to the outer reaches of its atmosphere, with a particular focus on its interior. Measurements and theories are used to understand the structure of the Earth and examine the processes that lead to a wide variety of processes, such as movement of the continental plates, production of the geomagnetic field, triggering of earthquakes and other natural phenomena. A variety of seismic, gravity, thermal, electrical and magnetic methods allow us to characterise the sub-surface, e.g., for exploration of natural mineral, hydrocarbon, geothermal and water resources, and also to map potential sites for carbon dioxide and nuclear waste storage.

The ???and Meteorology??? pathway includes more emphasis on meteorological skills, including atmospheric observations, weather forecasting and climate prediction.

Edinburgh has one of the largest university groupings of geophysicists and meteorologists in Europe, and it offers unrivalled courses, covering practical applications of physics and mathematics in the geosciences. Edinburgh graduates in geophysics are well-placed to enter challenging and rewarding careers in areas such as environmental consultancy, Earth resources prospecting, hydrogeology, industrial management and administration. The numerical and analytical skills  developed while studying physics and mathematics as applied to the geosciences, including the ability to interpret complex systems, are prized by potential employers.

Educational aims of programme

The student should:

  • Acquire knowledge of the Earth and of the physical processes which govern it;
  • Learn to collect scientific information in the field;
  • Learn to perform critical analysis of scientific information;
  • Acquire the ability to postulate and test a scientific hypothesis;
  • Develop their mathematical and problem-solving skills;
  • Learn about the scientific use of computers and develop their general IT skills; and
  • Improve their presentation and communication skills.

Programme outcomes: Knowledge and understanding

Graduates from the MEarthPhys in Geophysics and Meteorology will possess and demonstrate knowledge and understanding of the:

  • Structure of the Earth and of the processes which shape it;
  • Meteorological measurements and uncertainties;
  • Weather forecasting and climate prediction;
  • Various physical techniques used to probe the Earth's structure;
  • Processes by which hydrocarbons form, migrate and are trapped within rock;
  • Earth's magnetic field and understanding of the processes which form it; and
  • Causes of earthquakes and of how seismic waves propagate through the Earth.

Programme outcomes: Graduate attributes - Skills and abilities in research and enquiry

By engaging with and completing the MEarthPhys in Geophysics and Meteorology, graduates will be able to:

  • Tackle a variety of problems in Earth sciences by breaking down problems in unfamiliar situations into manageable tasks;
  • Explore and monitor the shallow Earth and upper crust (from centimetres to kilometres depth) using a range of geophysical exploration equipment and methods, for purposes of resource exploration and management;
  • Explore the deep Earth (from crust to core) using seismic waves from earthquakes, electromagnetic waves, and the Earth???s gravitational and magnetic fields;
  • Collect experimental data and analyse it in a quantitative and critical manner;
  • Run computational models and analyse their output in a quantitative and critical manner;
  • Conduct literature reviews and critically evaluate research literature;
  • Write complex computer programs in both compiled and interpreted languages in order to analyse scientific data; and
  • Plan and manage a research project.

Programme outcomes: Graduate attributes - Skills and abilities in personal and intellectual autonomy

By engaging with and completing the MEarthPhys in Geophysics and Meteorology, graduates will be able to:

  • Work effectively both individually and as a member of a small group;
  • Work independently and with good skills of self-management; and
  • Display creativity, flexibility and adaptability.

Programme outcomes: Graduate attributes - Skills and abilities in communication

By engaging with and completing the MEarthPhys in Geophysics and Meteorology, graduates will be able to:

  • Write scientific reports in a clear and well-presented manner; and
  • Give a verbal presentation of scientific results in the style expected at conferences in physics and the Earth sciences.

Programme outcomes: Graduate attributes - Skills and abilities in personal effectiveness

By engaging with and completing the MEarthPhys in Geophysics and Meteorology, graduates will be able to:

  • Collaborate efficiently and productively with others in the process of learning and presenting conclusions ??? this includes those with a range of backgrounds and knowledge, such as fellow-students, tutors and supervisors;
  • Organise their own learning, manage workload and work to a timetable. Participate effectively in group work and projects; and
  • Effectively plan, and possess the confidence to undertake and to present scholarly work that demonstrates an understanding of the aims, methods and theoretical considerations relevant to geophysics.

Programme outcomes: Technical/practical skills

By engaging with and completing the MEarthPhys in Geophysics and Meteorology, graduates will be able to:

  • Apply mathematical and numerical techniques to the study of the Earth;
  • Make confident use of computers running both Windows and Linux, both for generic purposes such as report writing and for subject-specific purposes such as data-analysis and numerical modelling;
  • Write programs in a data-analysis language (e.g., Python) to create numerical models and analyse data;
  • Operate a variety of technical equipment for the measurement of geophysical quantities; and
  • Interpret geophysical data in a geological context.

Fieldwork skills

By engaging with and completing the M.EarthPhys in Geophysics and Meteorology, graduates will be able to to carry out geophysical data acquisition in a field-based environment, and to be able to interpret the results in terms of local geology and atmospheric dynamics.

Programme structure and features

Pre-honours, Junior Honours and Senior Honours years for the MEarthPhys in Geophysics and Meteorology are laid out at:

http://www.drps.ed.ac.uk/18-19/dpt/utmepgeome1f.htm

Teaching and learning methods and strategies

Teaching in years 1-4 is as for B.Sc degree in Geophysics and Meteorology. Specific activities will vary with course options taken, but may include

In years 1 and 2

Lectures

Tutorials

Practical classes

Single-day fieldwork

In year 3

Lectures

Tutorials

Practical and computer programming classes

Geology Field course

In year 4

Lectures

Tutorials

Practical and computer programming classes

International Geophysics Field course

Extended research projects

Seminars and presentations

In year 5

Extended research project (50% of work for year)

Advanced computer programming training to support research project

Optional courses in various areas of Earth science

Assessment methods and strategies

In years 1 and 2

Written examinations

Assessed laboratory work

Other coursework

In year 3

Written examinations

Assessed laboratory reports

Computer programming exercises

Other coursework

In year 4

Written examinations

Research project reports

Summary reports from fieldwork

Presentation skills

In year 5

Two reports on extended research project

Computer programming exercises

Presentation and scientific writing skills

Assessment in years 1-4 as for B.S degree in geophysics

Assessment in the IM year is centred around the extended research project

Career opportunities

Geophysics graduates often go on to careers as geophysicists, in the oil, mining or nuclear industries. They may also transfer their physical, mathematical, numerical and algorithmic skills to a huge range of non-Earth Science related positions, for example in engineering, finance, business, consultancy, and a large variety of governmental and civil service positions. Many graduates go on to study for higher degrees.

The ???and Meteorology??? pathway prepares students for jobs in the atmospheric and environmental sciences, e.g. those involving weather and climate observations and modelling skills.

Careers for MEarthPhys graduates will be similar to those for the established BSc. However the MEarthPhys will additionally provide a better route into research careers, giving the student more relevant experience. There are a number of employers in industry nowadays who prefer students with a master's degree; the MEarthPhys will give our students a direct route to those employers without the need to find a position and funding on a stand-alone MSc degree.

Other items

It is possible to replace the 3rd year with equivalent courses at an approved overseas institute.