MSci Geophysics
Course Overview
This four-year Geophysics degree provides a comprehensive understanding of the Earth as a complex system, blending geology, physics, and advanced mathematics. You will develop the analytical and research skills necessary to tackle pressing environmental issues through extensive hands-on fieldwork and the use of cutting-edge technology. The program's interdisciplinary nature allows for specialization and prepares you for a highly employable future in various scientific and engineering sectors.
Key Program Highlights
- Interdisciplinary curriculum combining geology, physics, and mathematics
- Extensive fieldwork in diverse geological environments using advanced technology
- Flexibility to specialize in geological geophysics, geohazards, climatology, or oceanography
- Develops critical research skills and problem-solving abilities for real-world applications
- High employability in sectors like geophysical exploration, environmental consultancy, and risk analysis
Course Overview
This four-year Geophysics degree provides a comprehensive understanding of the Earth as a complex system, blending geology, physics, and advanced mathematics. You will develop the analytical and research skills necessary to tackle pressing environmental issues through extensive hands-on fieldwork and the use of cutting-edge technology. The program's interdisciplinary nature allows for specialization and prepares you for a highly employable future in various scientific and engineering sectors.
Key Program Highlights
- Interdisciplinary curriculum combining geology, physics, and mathematics
- Extensive fieldwork in diverse geological environments using advanced technology
- Flexibility to specialize in geological geophysics, geohazards, climatology, or oceanography
- Develops critical research skills and problem-solving abilities for real-world applications
- High employability in sectors like geophysical exploration, environmental consultancy, and risk analysis
Requirements
Modules
- OUR WORLD
- SUSTAINABILITY CHALLENGES AND SOLUTIONS
- EARTH SYSTEMS
- COMPUTATION AND MODELLING
- MATHEMATICAL METHODS FOR SCIENCE AND ENGINEERING
- DATA AND RESEARCH SKILLS B
- RESEARCH PRACTICE
- FURTHER MATHEMATICAL METHODS FOR SCIENCE AND ENGINEERING
- FLUID FLOW - THEORY AND COMPUTATION
- METEOROLOGY
- THE OCEAN SYSTEM
- INSIDE THE EARTH
- GEOMORPHIC SYSTEMS
- EARTH'S CRITICAL ZONE
- STELLAR PHYSICS
- QUANTUM THEORY
- DYNAMICS AND VIBRATION
- RENEWABLE ENERGY
- ENGINEERING DESIGN PROJECT
- FOUNDATIONS OF DATA SCIENCE
- VOLCANOES AND EARTHQUAKES
- GIS SKILLS FOR PROJECT WORK
- PROGRAMMING FOR NON-SPECIALISTS
- BIOGEOCHEMICAL CYCLES
- ENERGY TRANSITIONS
- INDEPENDENT PROJECT
- MODELLING ENVIRONMENTAL PROCESSES
- NUCLEAR ENGINEERING AND TECHNOLOGY
- GLOBAL ENVIRONMENTAL CHANGE
- SOLAR ENERGY ENGINEERING
- ARTIFICIAL INTELLIGENCE
- ENERGY AND PEOPLE
- THE PHYSICS OF THE UNIVERSE
- ENVIRONMENTAL ECONOMICS
- CATCHMENT MANAGEMENT
- CLIMATE AND WEATHER PREDICTION
- EARTH RESOURCES
- GEOSCIENCES FIELDCOURSE: GREECE
- GEOMORPHIC SYSTEMS
- EARTH'S CRITICAL ZONE
- STELLAR PHYSICS
- METEOROLOGY
- THE OCEAN SYSTEM
- DYNAMICS AND VIBRATION
- RENEWABLE ENERGY
- ENGINEERING DESIGN PROJECT
- INSIDE THE EARTH
- VOLCANOES AND EARTHQUAKES
- GIS SKILLS FOR PROJECT WORK
- PROGRAMMING FOR NON-SPECIALISTS
- ENERGY TRANSITIONS
- RESEARCH TRAINING PROJECT
- CATCHMENT MANAGEMENT
- SCIENCE OF CLIMATE CHANGE
- ADVANCED ARTIFICIAL INTELLIGENCE
- ARTIFICIAL INTELLIGENCE
- SOLAR ENERGY ENGINEERING WITH ADVANCED TOPICS
- DATABASE MANIPULATION
- GIS FOR MANAGING ECOLOGICAL AND ENVIRONMENTAL CHANGE
- ENERGY INFRASTRUCTURE ENGINEERING
- DATA MINING
- PATHWAYS TO NET ZERO
- APPLIED STATISTICS
- ENVIRONMENTAL ECONOMICS
- NUCLEAR ENGINEERING AND TECHNOLOGY WITH ADVANCED TOPICS
- STATISTICS AND MODELLING FOR SCIENTISTS USING R
- GLOBAL ENVIRONMENTAL CHANGE
- FLUIDS ENGINEERING FOR RENEWABLE ENERGY
- RESEARCH TOPICS IN EARTH SCIENCE
- GEOSCIENCES FIELDCOURSE: GREECE
