MSc in Geophysics and Space Technology 24 months Postgraduate Program By Technical University of Denmark |Top Universities
Subject Ranking

# 51-100QS Subject Rankings

Program Duration

24 monthsProgram duration

Tuitionfee

15,000 EURTuition Fee/year

Main Subject Area

GeophysicsMain Subject Area

Program overview

Main Subject

Geophysics

Degree

MSc

Study Level

Masters

Study Mode

On Campus

Geophysics and Space Technology - candidate
On the master's program Geophysics and space technology, you gain skills in research and development in satellite, aircraft and ground-based measurement methods as well as mathematical and physical models for monitoring, mapping and exploration of large-scale physical structures and processes on Earth and in space.
Technologies for monitoring and mapping the Earth and exploring space play a prominent role in our daily lives. Without these technologies, we would not have GPS navigation in cars, reliable weather forecasts, global climate and environmental monitoring or global telecommunications.
We badly need new and innovative methods and services to monitor the earth's climate change and measure the effect of the measures we take.
The number of new applications and services for navigation and mapping will explode in the coming years – e.g. more precise data from navigation satellites, images from Earth observation satellites, improved (tele)communication and increasingly sophisticated smartphones.
In addition, exploration of new energy and mineral resources – and a more efficient utilization of the existing resources – is also an important societal task.
As a graduate from 'Geophysics and Space Technology', you can greatly contribute to new sustainable and advanced technological solutions that can anticipate the challenges society faces.
The focus of the education
The Master's program 'Geophysics and Space Technology' focuses on the development, design and application of innovative and advanced technological solutions to monitor, map, model and predict physical structures and processes on a large scale - i.e. Earth and space.
During the course, you learn to combine scientific knowledge with interdisciplinary, technological competences to develop sustainable and advanced solutions - this can be, for example, within instrumentation, modeling and data processing methods for use in e.g. climate and environmental monitoring, searching for new resources, exploration of space or mapping and navigation on Earth. 

Program overview

Main Subject

Geophysics

Degree

MSc

Study Level

Masters

Study Mode

On Campus

Geophysics and Space Technology - candidate
On the master's program Geophysics and space technology, you gain skills in research and development in satellite, aircraft and ground-based measurement methods as well as mathematical and physical models for monitoring, mapping and exploration of large-scale physical structures and processes on Earth and in space.
Technologies for monitoring and mapping the Earth and exploring space play a prominent role in our daily lives. Without these technologies, we would not have GPS navigation in cars, reliable weather forecasts, global climate and environmental monitoring or global telecommunications.
We badly need new and innovative methods and services to monitor the earth's climate change and measure the effect of the measures we take.
The number of new applications and services for navigation and mapping will explode in the coming years – e.g. more precise data from navigation satellites, images from Earth observation satellites, improved (tele)communication and increasingly sophisticated smartphones.
In addition, exploration of new energy and mineral resources – and a more efficient utilization of the existing resources – is also an important societal task.
As a graduate from 'Geophysics and Space Technology', you can greatly contribute to new sustainable and advanced technological solutions that can anticipate the challenges society faces.
The focus of the education
The Master's program 'Geophysics and Space Technology' focuses on the development, design and application of innovative and advanced technological solutions to monitor, map, model and predict physical structures and processes on a large scale - i.e. Earth and space.
During the course, you learn to combine scientific knowledge with interdisciplinary, technological competences to develop sustainable and advanced solutions - this can be, for example, within instrumentation, modeling and data processing methods for use in e.g. climate and environmental monitoring, searching for new resources, exploration of space or mapping and navigation on Earth. 

Admission Requirements

6.5+
88+
180+

2 Years
Sep

Tuition fees

International
15,000 EUR

Scholarships

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